KR101560289B1 - Non-Point Pollution Purifying System - Google Patents

Abstract

The present invention relates to a non-point pollution natural purification system,
The inflow section is formed in the road, the parking lot, and the ground to receive inflow and outflow, and a storage space is formed in which inflow water flowing into the inflow section is stored. A plurality of inflow- And a plurality of natural penetrating holes are formed on the bottom surface of the first permeation port layer and the first permeation port layer is formed on the bottom surface of the first permeation port layer. A permeate tank having a soil layer stacked on the first filter material layer, a plurality of water-moving pipes installed in the upper part of the storage tank in communication with one another to transfer and discharge inflow water overflowed to the storage tank, A filtration unit is installed in the water moving hole, and a cleaning means is installed on the inner wall of the storage tank to clean the filtration unit. The cleaning means includes a plurality of fixing members installed on the inner wall of the storage tank, a pair of rod members vertically moving upward and downward through the fixing member, and a plurality of vertically arranged rod members between the pair of rod members A buoyancy member mounted on the rod member for vertically upwardly moving the pair of rod members under the influence of inflow water stored in the storage tank and a stop member for stopping the pair of rod members by a predetermined distance .
The non-point pollution natural remediation system according to the present invention has a relatively simple structure and is easy to maintain and maintain, as well as to improve the pretreatment efficiency in the storage tank or the permeation tank for the purification treatment and purify the non-point pollutant It is possible to rapidly disperse and disperse the stormwater into the permeation tank and the discharge tank from the storage tank, and thus it is possible to purify or discharge the treated water, so that the purification treatment efficiency is excellent according to the inflow conditions of the stormwater, Can be prevented.
In addition, a filtration unit that performs a function such as a fiber filtration net and a mesh is installed in the water transfer hole formed in the storage tank, and cleaning means is provided on the inner wall of the storage tank to clean the filtration unit, So that it can be purified and drained.

Description

{Non-Point Pollution Purifying System}

The present invention relates to a non-point pollution natural purification system, and more particularly, to a system for performing a natural purification treatment on a non-point pollution source through a reservoir, a permeation tank, and an effluent tank, The present invention relates to a non-point pollution natural purification system capable of preventing the flooding due to a rapid purification time from inflow to discharge of effluent by increasing the efficiency of the pretreatment for the purification treatment.

As is well known, pollution sources occurring in urban areas are largely classified into point pollution sources and nonpoint pollution sources.

The point pollution source means pollution source that can easily grasp the point of occurrence of pollution source because domestic sewage and industrial wastewater are discharged through discharge pipe. Even if the pollution concentration is very high, point of occurrence is specified, so intensive purification Thereby facilitating the water quality treatment.

Conversely, non-point sources are also referred to as non-specific sources, surface sources, mobile sources, or other sources of water pollution, which have a wide range of discharge routes, such as farmland drainage, urban drainage,

This is a source of contaminants exposed to the ground surface in rainfall along with stormwater in the case of rainfall.

In addition to the farm facilities, landfill, and other facilities added to the aquaculture facility, golf course facility, transportation equipment repair or dismantling facility, simplified processing facility for enriched fishery products, photo processing facility, etc., Product yard, land change area, and other facilities.

Non-point pollutants are pollutants that run out along with surface runoffs when they are exposed to rain. These include fertilizers and pesticides, soil sprinkling plants, housing spills, traffic pollutants, dust and garbage in urban areas, residues of natural flora and fauna, Air pollutants that have fallen on the surface of the earth.

Therefore, rainwater containing all pollutants is actually the main source of nonpoint pollution.

Since non-point pollutants are usually discharged with a lot of rainfall, they are characterized by large differences in daily seasonal emissions, difficulty in predicting and quantifying them, and high impacts on meteorological conditions such as meteorological conditions. Therefore, the emission standard is not established systematically.

Therefore, as the regulations for point sources with regulatory standards are continuously strengthened and environmental facilities are expanded, the impact of non - point pollution sources on water quality will gradually increase.

As a countermeasure to reduce pollution, the road drainage in the urban area is provided with a reservoir (reservoir) 10 to allow the pollutants generated due to the initial rainfall to be settled and discharged, and the pesticide- The agricultural drainage should be equipped with a reservoir (10), a wetland purification facility, and aquatic plants to prevent direct influx into the river. In addition, it is necessary to reinforce relevant regulations in laws and regulations such as the Water Quality Conservation Act or establish related laws in order to manage them systematically.

As described above, the nonpoint pollution source occurs clearly in urban life, and this occurs in unspecified places such as roads and parking lots.

A technique for purifying the above-mentioned non-point pollution is disclosed in Korean Registration Practice No. 20-0452222 (name: Non-point Pollution Natural Purification System).

As shown in FIG. 1, the non-point pollution natural purification system includes a storage tank 210 in which contaminated river water, rainwater, etc. are received and filtered by sedimentation, river water and rainwater filtered in the storage tank 210 are infiltrated A permeation tank 220 for performing a purification treatment through various stages, and a discharge tank 230 for discharging the treated water purified by the permeation tank 220.

The storage tank 210 is formed with an inlet pipe 212 through which the river water or the wastewater flows into the upper portion of the storage tank 210. A superior manhole 202 is formed at the upper end of the storage tank 210 to allow storms containing non- In the inner upper portion, a discharge hole 216 for overflow of wastewater and stormwater and a filtration filter 410 in the discharge hole are provided.

The permeation tank 220 is a layer in which various microorganisms and animalcules are inhabited while preventing infiltration and erosion of the stormwater. The permeation tank 220 is composed of a double-layer filter and a purifying filter 226 are provided.

Stems and roots of the plant (312) planted in the uppermost layer of the permeation tank (220) are used as an attachment medium for microorganisms. By transferring oxygen through the aeration structure, the decomposition activity of the microorganisms is promoted and nitrification and denitrification .

That is, the soil layer 310 prevents the filtered water flowing through the discharge hole 216 of the storage tank 210 from penetrating in a short period of time to prevent the purification from being performed properly, and the plant layer 312, the soil layer 310, And is a layer which induces natural or filtered water to be purified by various kinds of microorganisms, animalcules, and the like.

The outflow tank 230 is connected to the permeation tank 220 through a porous water pipe 222 so that the purified water flowing through the porous water pipe 222 flows and temporarily stored.

The permeate tank 220 is connected to the porous drain pipe 214 to purify water by filtration water or subsequent rainfall. The permeate tank 220 includes a first gravel layer 320 and a first gravel layer 320 for purifying non- A filter layer 330 having a capillary formed therein for filtering the purified water having passed through the first gravel layer 320 and a microfiltration layer 340 for secondarily purifying the purified water subjected to the first purification treatment in the filter medium layer 330 A porous purifying water pipe 222 through which purified water having passed through the microfiltration layer 340 flows and a second gravel layer 350 composed of gravels larger than the gravel formed in the first gravel layer 320 are laminated .

The lower part of the outlet tank 230 is connected to the porous water pipe 222 and the upper part of the outlet tank 230 is out of a range that can be treated by the first gravel layer 320 or the soil layer 310 of the permeation tank 220, An inflow hole 232 through which the rainfall after the initial rainfall flows or the filtrate water naturally discharged from the storage tank 210 is formed and is formed on the other side of the discharge tank 230 so as to face the inflow hole 232, A natural discharge pipe 234 for allowing natural discharge to be performed when a predetermined amount or more of purified water is stored in the tank 230 and a discharge pipe for discharging the purified water introduced from the porous purified water pipe 222 to the outside of the natural discharge pipe 234 236 are provided.

A discharge pipe 236 for discharging the purified water introduced from the porous purifying water pipe 222 to the outside is provided on the lower side of the outlet tank 230, that is, below the natural discharge pipe 234. At this time, the discharge pipe 236 is provided with a plurality of fine holes formed on the outer peripheral surface thereof, like the porous water pipe 214 and the porous water pipe 222.

As in the case of the discharge hole 216 formed in the storage tank 210, contaminants such as particulate solid substances and various suspended substances are discharged from the discharge tank 230 (see FIG. 2) into the inlet hole 232, the natural discharge pipe 234, The filtering filter 410 is provided to minimize the inflow of the water.

However, the conventional non-point pollution natural purification system as described above is constructed by the construction of the soil layer, the first and second gravel layers, the filter medium layer, the porous purification water pipe and the multi-layer purification filter, The purification efficiency of the nonpoint source is substantially high, but the workability for system construction is poor and the facility cost is high.

In addition, it is difficult to rapidly purify a large amount of contaminants because it takes a long time as a fine purification structure in a permeation tank in a relatively large amount of flooding of rainwater during rainy days.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a system in which a non- And to provide a non-point pollution natural purification system that can prevent flooding by quickly cleaning the time from the introduction of the good to the release of the good by improving the efficiency of the pretreatment for the purification treatment.

According to an aspect of the present invention,

The inflow section is formed in the road, the parking lot, and the ground to receive inflow and outflow, and a storage space is formed in which inflow water flowing into the inflow section is stored. A plurality of inflow- And a plurality of natural penetrating holes are formed on the bottom surface of the first permeation port layer and the first permeation port layer is formed on the bottom surface of the first permeation port layer. A permeate tank having a soil layer stacked on the first filter material layer, a plurality of water-moving pipes installed in the upper part of the storage tank in communication with each other for transferring and discharging inflow water overflowed to the storage tank, A filtration unit is installed in the water moving hole, and a cleaning means is installed on the inner wall of the storage tank to clean the filtration unit. The cleaning means includes a plurality of fixing members installed on the inner wall of the storage tank, a pair of rod members vertically moving upward and downward through the fixing member, and a plurality of vertically arranged rod members between the pair of rod members A buoyancy member mounted on the rod member for vertically upwardly moving the pair of rod members under the influence of inflow water stored in the storage tank and a stop member for stopping the pair of rod members by a predetermined distance .

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The non-point pollution natural remediation system according to the present invention has a relatively simple structure and is easy to maintain and maintain, as well as to improve the pretreatment efficiency in the storage tank or the permeation tank for the purification treatment and purify the non-point pollutant It is possible to rapidly disperse and disperse the stormwater into the permeation tank and the discharge tank from the storage tank, and thus it is possible to purify or discharge the treated water, so that the purification treatment efficiency is excellent according to the inflow conditions of the stormwater, Can be prevented.

In addition, a filtration unit that performs a function such as a fiber filtration net and a mesh is installed in the water transfer hole formed in the storage tank, and cleaning means is provided on the inner wall of the storage tank to clean the filtration unit, So that it can be purified and drained.

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1 is a longitudinal sectional view showing a conventional non-point pollution natural purification system.
2 is a projection perspective view showing a nonpoint pollution natural purification system according to the present invention.
3 is a longitudinal sectional view showing a nonpoint pollution natural purification system according to the present invention.
4 is a longitudinal sectional view showing a water guide plate and cleaning means constituting a nonpoint pollution natural purification system according to the present invention.
5 is a perspective view of the cleaning means of Fig.
6 is a vertical sectional view and an enlarged view showing the operation 1 of the nonpoint pollution natural purification system according to the present invention.
7 is a longitudinal sectional view showing the action 2 of the nonpoint pollution natural purification system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.
A storage space 12 is formed in which an inflow section 11 is formed for inflow of stormwater and sewage flowing in a road, a parking lot, and a ground and a inflow water inflowed to the inflow section 11 is stored, A water storage tank 10 in which a plurality of water transfer holes 13 are formed so as to allow the inflow water to move on an opposite wall surface of the water storage tank 13, A plurality of natural penetration holes 23 are formed on the bottom surface of the first filter layer 24 and a first filter layer 24 is laminated on the bottom of the space portion 22, A permeate tank 20 having a layer of soil 26 formed thereon and a plurality of water conveyance pipes 30 connected to one end of the storage tank 10 so as to communicate with one end and conveying and discharging inflow water overflowed to the storage tank 10, And a filtration unit 40 is installed in the water transfer hole 13 formed in the storage tank 10, A cleaning means 50 is provided on the inner wall of the storage tank 10 for cleaning the pre-filtration unit 40. The cleaning means 50 includes a plurality of fixing members 51 installed on the inner wall of the storage tank 10, A pair of rod members 52 installed vertically up and down through the fixing member 51, a cleaning member 53 having a plurality of vertically arranged members arranged between the pair of rod members 52, A buoyancy member 54 mounted on the rod member 52 to vertically upward the pair of rod members 52 under the influence of inflow water stored in the pair of rod members 52 and 52, And a stop member 55 for stopping and stopping the stopper member 55 as much as possible.

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The non-point pollution natural purification system constructed as described above will be described in more detail as follows.

As shown in Figs. 1 and 2,

The present invention is largely composed of a reservoir (10), a permeator (20), and a plurality of fluid transfer tubes (30) installed inside the permeator (20).

Referring to the configuration of the storage tank 10,

An inflow section 11 is formed in an upper part for inflow of storm water containing a non-point pollution source during an initial rainfall or inflow of river water or the like in a river, and inflow water flowing through the inflow section 11 is allowed to stay for a predetermined time The inflow section 10 is provided with a storage space 12 having a predetermined size for storing the inflow water 10 and the inflow section 11 of the storage tank 10 on a wall surface opposite to the inflow section 11, A plurality of moving balls are formed so as to move to the permeation tank 20.

A plurality of moving holes are formed in the lower portion of the wall where the storage tank 10 and the permeation tank 20 are separated so that the inflow water is transported to the permeation tank 20 when the inflow water amount is small, A plurality of moving holes are formed in the upper portion of the wall surface to rapidly move inflow water to the permeation tank 20.

In addition, the number, arrangement, diameter, etc. of the plurality of moving balls are not limited.

Meanwhile, the permeation tank 20 is provided so as to communicate with a plurality of moving holes at one side of the alga,

The penetration tank 20 is formed with a space portion 22 for purifying influent water flowing into the water movement tube 30 and inflow water directly penetrating from the upper portion thereof, A soil layer 26 is laminated on the first filter layer 24 and a second filter layer 24 is sandwiched between the first filter layer 24 and the soil layer 26 to more effectively purify the influent water. 25 are stacked.

As described above, when the second filter material layer 25 is laminated between the first filter material layer 24 and the soil layer 26,

The influent water in the storage tank 10 is transferred to the permeation tank 20 through the water transfer hole 13 and is primarily filtered by the second filter medium layer 25 and secondarily filtered by the first filter medium layer 24 A lamination section is formed so as to be filtered.

The first filter media layer 24 deposited on the bottom of the space part 22 of the permeation tank 20 is filled with gravel and small stones, i.e., rubble, and the second filter media layer 25 Is filled with a ceramic ball, and a soil layer 26 is formed on the ceramic ball to vegetate trees and plants.

On the other hand, a plurality of water conveyance pipes 30 are provided on the wall surface between the storage tank 10 and the permeation tank 20 so as to communicate with the storage space 12 of the storage tank 10,

The water running moving pipe 30 includes a first moving pipe 31 connected to the upper part of the storage tank 10, a second moving pipe 32 connected to the end of the first moving pipe 31, A connection pipe 33 formed to communicate with the second copper pipe portion, and a discharge pipe 34 formed to communicate with the connection pipe 33.

The following description will explain in more detail the provision of the water flow pipe 30 within the permeation tank 20 from the upper part of the storage tank 10.

The first moving pipe 31 is provided in the upper part of the storage tank 10 so as to be vertically bent in the longitudinal direction from the lateral direction. The second moving pipe 32 is bent so that the second moving pipe 32 is installed close to the bottom of the permeating tank 20 and the connecting pipe 33 is connected to the end of the second moving pipe 32, And the discharge pipe 34 is installed at the other end of the penetration tank 20 through the wall thereof.

In addition, in the case where a plurality of the water moving pipes 30 are installed,

Each of the first moving pipes 31 is horizontally arranged so as to communicate with the upper part of the storage tank 10 and the second moving pipe 32 is vertically bent to each end of each of the first moving pipes 31, Each of the moving pipes is provided in communication with the connection pipe 33 so that the inflow water can be discharged through the discharge pipe 34 formed to communicate with the connection pipe 33.

Particularly, the plurality of perforations 32a are formed in the outer circumferential surface of the second copper tube, so that the inflow water filtered by the second filter medium layer 25 and the first filter medium layer 24 is introduced into the natural infiltration hole 23). ≪ / RTI >

The plurality of water transfer holes 13 formed in the storage tank 10 are provided with filtration units 40 that perform filtration functions such as fiber filtering nets and meshes respectively and are provided with various suspended matters attached to the filtration unit 40 Cleaning means 50 is installed on the inner wall of the storage tank 10 for cleaning,

As shown in Figs. 3 to 4,

The cleaning means 50 includes a fixing member 51 in which a plurality of fixing members 51 are arranged on the inner wall of the storage tank 10 and a pair of rod members A cleaning member 53 arranged between the pair of rod members 52 so as to be vertically arranged with the pair of rod members 52 and a cleaning member 53 installed in the storage space 12 of the storage tank 10, A buoyancy member 54 installed on the pair of rod members 52 to vertically upward the pair of rod members 52 under the influence of inflow water, And a stop member 55 provided on the inner wall of the storage tank 10 for stopping the operation after the upward movement.

When a large amount of stormwater and sewage flows into the inflow section 11, the inflow water is directly discharged through the storm drainage pipe 30 to prevent the inflow water from overflowing in the storage tank 10, A water guide plate 70 is installed on the inner wall surface,

The water guide plate 70 is installed at one end on the wall surface of the inner side of the storage tank 10 on the water flow moving pipe 30 installed in the storage tank 10 and the water guide plate 70 is rotatably installed around the one end, And a buoyancy member (54) is installed on the bottom surface of the other end portion so that the buoyancy member (54) is installed on the bottom surface of the other end portion of the buoyancy tank (10) A predetermined angle of the water guide plate 70 is formed at a lower portion of one end of the water guide plate 70, which is rotatably mounted on the water guide plate 70, An angle regulating member is provided to allow the buoyancy member 54 to interact with the rising of the influent water of the storage tank 10.

On the other hand, a filter cloth 80 is provided between the first filter material layer 24, the second filter material layer 25, the second filter material layer 25 and the soil layer 26 to effectively prevent the inflow water Thereby providing an advantage of being capable of purifying the exhaust gas.

Hereinafter, the operation of the non-point pollution natural purification system having the above-described structure will be described.

As shown in Figs. 5 to 6,

First, when the amount of stormwater and sewage is small,

The inflow water flowing into the storage tank 10 through the inflow section 11 passes through the water transfer hole 13 formed in the lower part of the inner wall of the storage tank 10 and the filtration section 40 provided on the side of the water transfer hole 13, (Fiber filter net and mesh), purified by a second filter medium layer 25 formed by filling secondarily with a ceramic ball, passed through a filter cloth 80 in a third order, Layer 24 and then passes through a natural infiltration hole 23 formed on the bottom surface of the permeation tank 20 to be naturally purified.

Secondly, when the reservoir 10 is filled with stormwater and sewage,

The inflow water flowing into the storage tank 10 through the inflow section 11 is primarily transferred to the permeation tank 20 through the water transfer hole 13 formed in the lower portion of the inner wall of the storage tank 10, When the inflow water flowing into the storage space 12 of the storage tank 10 continues to rise due to the limitation of being transferred to the permeation tank 20 through the reservoir 13, (Fiber filter net and mesh) provided on the side of the filter cloth 80. The filter material is purified in the second filter material layer 25 formed by filling the second filter material with ceramic balls and then passes through the filter cloth 80 And is purified by the first filter material layer 24 filled with rubble in a quadratic manner and then passes through a natural infiltration hole 23 formed on the bottom surface of the permeation tank 20 to be purified.

At this time, the cleaning means 50 acts on the inner wall of the storage tank 10 to clean various suspended matters attached to the filtration unit 40,

The inflow water and the buoyancy member 54 interact with each other to raise the buoyancy member 54 and to move the pair of rod members 52 connected to the buoyancy member 54 Of the plurality of cleaning members 53 vertically arranged between the pair of rod members 52 at the same time as the vertical movement of the cleaning member 53 as the cleaning member 53 moves vertically upward as it touches the stop member 55 provided on the inner wall of the storage tank 10 The cleaning brush moves vertically upward to clean the various suspended matters attached to the filtration unit 40 so that the inflow water is quickly moved to the permeation tank 20 through the water transfer hole 13.

Thirdly, when more reservoir and sewage are maintained to fill the reservoir 10,

The inflow water flowing into the storage tank 10 through the inflow section 11 is primarily transferred to the permeation tank 20 through the water transfer hole 13 formed in the lower portion of the inner wall of the storage tank 10, It is limited to be transferred to the permeation tank 20 through the reservoir tank 13 and secondly it is limited to be transported through the water transfer hole 13 formed in the upper part of the inner wall of the storage tank 10, When the inflow water flowing into the storage space 12 of the storage tank 10 continues to rise, the water guide plate 70, which is provided at one end of the wall surface of the storage tank 10 on the water flow moving pipe 30 provided in the storage tank 10, As the inflow water rises, the buoyancy member 54 acts to rotate on the basis of the one end of the water guide plate 70 to direct the inflow water flowing into the inflow section 11 directly to the first moving pipe 31 to be vertically dropped Passes through the second moving pipe 32. At this time, a part of the influent water passes through the second moving pipe 3 2 through the perforations 32a formed in the bottom of the storage tank 10 to be naturally purified and the rest of the inflow water is discharged through the discharge pipe 34 except for a part of the inflow water.

On the other hand, when the rainwater is directly purified into the permeation tank 20,

First, the rainwater is absorbed in the soil layer 26 and then is primarily purified by the second filter medium layer 25 through the filter cloth 80 laminated between the soil layer 26 and the second filter medium layer 25 And the second filter medium layer 25 through the filter cloth 80 which is layered between the second filter medium layer 25 and the first filter medium layer 24 in the second order, Passes through the perforation 32a formed in the second moving pipe 32, passes through the lower portion of the second filter medium layer 25, and is discharged to the natural infiltration hole 23 formed in the bottom of the bird's trough to naturally purify.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those of ordinary skill in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Storage tank 11:
12: Storage space 13: Water moving ball
20: Penetration chamber 22:
23: natural infiltration hole 24: first filter medium layer
25: second filter material layer 26: soil layer
30: a water-moving tube 31: a first moving tube
32: second moving pipe 33: connecting pipe
34: Discharge tube 40:
50: Cleaning means 70: Water guide plate
80: Filter cloth

Claims (10)

A storage space 12 is formed in which an inflow section 11 is formed for inflow of stormwater and sewage flowing in a road, a parking lot, and a ground and a inflow water inflowed to the inflow section 11 is stored, (10) in which a plurality of water transfer holes (13) are formed for the inflow water to move on a wall surface facing the water storage tank
A plurality of natural infiltration holes 23 are formed on the bottom surface of the space 22 so as to communicate with the inflow port 13, A penetration tank 20 having a first filter medium layer 24 laminated on a lower portion thereof and a soil layer 26 laminated on the first filter medium layer 24,
And a plurality of water flow moving pipes 30 provided at one end of the storage tank 10 in communication with the storage tank 10 for transferring and discharging inflow water overflowed to the storage tank 10,
A filtration unit (40) is installed in the water moving hole (13) formed in the storage tank (10)
In order to clean the filtration unit 40, a cleaning means 50 is installed on the inner wall of the storage tank 10,
The cleaning means 50 includes a plurality of fixing members 51 installed on the inner wall of the storage tank 10, a pair of rod members 52 vertically moving up and down through the fixing member 51, A cleaning member 53 having a plurality of vertically arranged members arranged between a pair of the rod members 52 and a cleaning member 53 for vertically upwardly moving the pair of the rod members 52 under the influence of the inflow water stored in the storage tank 10. [ , A buoyancy member (54) mounted on the rod member (52), and a stop member (55) for stopping the pair of rod members (52) after a certain distance. delete delete delete delete delete delete delete delete delete

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