KR101737211B1 - A tubular underground storage for treating first flush of stormwater to improve water quality - Google Patents

Abstract

The present invention relates to a water treatment system for improving water quality (especially at the time of initial excellent water quality) of a river and capable of maintaining a flow rate and improving water quality in a river.
The present invention includes a treatment water inflow section 10, a screen 100, a storage tank 200, a carage filter filtration apparatus section 300, and a treated water discharge section 20, And a water treatment system 1000 for improving the quality of the river water.
In addition, the present invention provides a water treatment system 1000 for improving the quality of a river, including the first storage tank 210 and the inflow storage tank 240.
The present invention is characterized in that the storage tank 200 includes a first storage tank 210, a first storage tank 220, a second storage tank 230, and an inflow storage tank 240. And provides a water treatment system 1000 for improvement.
Also, the first storage expansion tank 210 is formed in the form of a pipe and is constituted by one or two or more first storage tubes,
The second storage tank 230 is formed in the shape of a pipe and is composed of one or more primary storage tubes. The water treatment system 1000 for improving the quality of the river water is provided.

Description

[0001] The present invention relates to a water treatment system for improving water quality in an early storm with a tubular storage tank,

The present invention relates to a water treatment system for improving water quality (especially at the time of initial excellent water quality) of a river and capable of maintaining a flow rate and improving water quality in a river.

Generally, the pollutants are point pollutants discharged from a limited point pollution sources such as domestic sewage, industrial wastewater and livestock wastewater, and pollutants such as agricultural land, grassland, forest site, construction site, mine, Discharge areas such as landfills, roads, parking lots, plazas, bus stops, dense residential areas can be divided into nonpoint pollutants emitted from a wide range of nonpoint pollution sources.

Therefore, in the case of the point pollutants having a clear and defined discharge point, there is a separate purification apparatus or a wastewater treatment facility installed in a home, a factory, an livestock farm, etc., to purify pollutants to a certain extent, The site is unclear and remains on a wide range of ground surface. It is a major cause of water pollution due to inflow of rainwater into public water bodies such as rivers, inland waters, and lake waters and groundwater.

Accordingly, recently, there has been provided an apparatus for preventing contaminants discharged from a non-point pollution source from entering into a public water area such as a river, an inner bay, a lake, or ground water along with an initial rainfall.

Various methods for removing pollutants discharged from non-point pollution sources as described above are known, including chemical methods, biological methods, and physical methods.

Among these removal methods, the processing device for removing contaminants by physical methods is Korea Patent Registration No. 10-0897258 (Registration date on May 5, 2009), Korean Patent Registration No. 10-0849017 (Registration date on July 22, 2008) Patent Registration No. 10-0718719 and the like.

That is, a conventional non-point source treatment apparatus includes a screen and a flow rate adjusting tank, a slope plate settling tank, a filtration adsorption and discharge tank, or a first filtration tank having a vortex induction plate for vortex- A second filtration tank having a filtration filter and a third filtration tank filled with a filter medium are provided in a filtration tank or a sedimentation tank having a filter member and a filtration tank to filter various contaminants contained in raw water flowing from a non- .

However, in such a conventional non-point source treatment apparatus, the filter member to which the contaminants are adsorbed or to be attached by filtration must be regularly replaced with a new one in order to increase filtration efficiency. However, the work of replacing the filter member by the operator is very troublesome, There is a problem that the maintenance cost is increased.

In addition, when the raw water is filtered using the filter medium packed in the filtration tank, the operation of replacing the filter medium with a new filter medium is relatively cumbersome and requires a long replacement time, Respectively.

Especially, it is very difficult to prevent contamination of streams by sewage or wastewater flowing into rivers in the early storm surge.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a water treatment system for improving the water quality of the river and maintaining the flow rate of the river, .

In particular, the present invention provides a water treatment system for improving the water quality of a river, which is installed in a mudguard which is economical and easy to use and replace by using a cartridge filter portion in a filtration apparatus that performs water treatment at an early stormy weather.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-

The water quality of the river water including the treated water inflow section 10, the screen 100, the storage tank 200, the carage filter filtration apparatus section 300 and the treated water outflow section 20, And provides a water treatment system 1000 for improvement.

In addition, the present invention provides a water treatment system 1000 for improving the quality of a river, including the first storage tank 210 and the inflow storage tank 240.

The present invention is characterized in that the storage tank 200 includes a first storage tank 210, a first storage tank 220, a second storage tank 230, and an inflow storage tank 240. And provides a water treatment system 1000 for improvement.

Also, the first storage expansion tank 210 is formed in the form of a pipe and is constituted by one or two or more first storage tubes,

The second storage tank 230 is formed in the shape of a pipe and is composed of one or more primary storage tubes. The water treatment system 1000 for improving the quality of the river water is provided.

The water treatment system for improving the river water quality according to the present invention is installed at the slope of the river so that the effect of preventing the contamination of the river by the sewage or the wastewater flowing into the river at the time of early storming is remarkably high.

In addition, the water treatment system for improving the river water quality according to the present invention has an effect of improving the quality of the river and maintaining the flow rate of the river especially at the time of initial excellent weather.

In addition, the water treatment system for improving the quality of the river according to the present invention is economical due to the use of the cartridge filter unit in the filtration apparatus that performs water treatment at the time of early storming, and is easy to use and replace.

FIG. 1 is a conceptual diagram of a water treatment system for improving river water quality according to the present invention installed at a river mouth.
FIG. 2 is a conceptual diagram of a water treatment system for improving water quality in an initial storm with a tubular storage tank according to the present invention. FIG.
FIG. 2B is a plan view of a water treatment system for improving water quality in an initial storm having a tubular storage tank according to the present invention. FIG.
FIG. 2C is a conceptual diagram of a water treatment system for improving water quality in an initial storm with a tubular storage tank according to the present invention (when there is no primary storage tank).
FIG. 2 (d) is a plan view of the water treatment system for improving the water quality at the time of the initial storm with the tubular reservoir according to the present invention (when there is no primary reservoir).
3 is a conceptual view of a cartridge filter portion of a water treatment system for improving the quality of a river according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

The present invention includes a treatment water inflow section 10, a screen 100, a storage tank 200, a carage filter filtration apparatus section 300, and a treated water discharge section 20, And a water treatment system 1000 for improving the water quality of the river.

As shown in FIG. 1, the technical feature of the present invention is that the water treatment system is installed in the slope 1 of the river.

Since the water treatment system of the present invention is installed at the slope of the river, the water quality of the stream can be improved and the flow rate of the stream can be maintained at the time of the initial storm.

The slope (1) mentioned above refers to the edge of water (2) such as a river or river, or a place where the water is densely populated. In other words, it refers to the place where the water flows in the shape of a hill at the edge of the place where the water flows, and the term "habitat site" was also used.

The treatment water inflow section 10 of the present invention means a device or means into which sewage or wastewater flows in the initial storm surge.

As shown in FIG. 2, the present invention is configured such that a sedimentation tank 110 is connected to the treated water inflow section 10.

Accordingly, the sewage or wastewater to be treated flows into the treatment water inflow section, and contaminants of sewage or wastewater are precipitated in the settling tank (110).

At the lower end of the settling tank 110, a sludge treatment filter 120 is provided to discharge and treat the settled sludge.

In the present invention, the screen 100 is provided on the side surface of the above-described sedimentation tank.

The above-described screen 100 of the present invention means a screen of a sewage treatment plant which removes ordinary roughness or fine contaminants.

The storage tank 200 of the present invention means a facility for storing or storing sewage or wastewater that has passed through the screen for a predetermined period of time.

Therefore, the storage tank is generally formed in the form of a normal water storage tank.

The storage tank (200) of the present invention includes a first storage tank (210) and an inflow storage tank (240).

The technical feature of the present invention is that the storage tank 200 is formed with a storage tank 210 (or a first storage tank), and the storage tank is formed in the shape of one or more pipes , The tube shape can be variously adopted such as a circle shape and a square shape.

As shown in FIG. 2C, the storage tank 200 of the present invention is basically configured to include a first storage tank 210 and an inflow storage tank 240.

The storage tank 200 of the present invention may include a first storage tank 210, a first storage tank 220, a second storage tank 230, and an inflow storage tank 240.

As shown in FIG. 2, the screen 100 of the present invention is connected to the discharge pipe 210, and the primary storage tank 210 is connected to the primary storage tank 220 so as to be inclined .

Therefore, a technical feature of the present invention is that the above-described storage vessel 200 can have one or more of the same configuration as the above-described first storage vessel 200 and the first storage vessel 200.

As shown in FIG. 2C, it can be seen that the storage tank 200 has no primary storage tank 200 as described above.

Also, as shown in FIG. 2, it can be seen that the storage tank 200 is composed of one primary storage tank 200 as described above.

As described above, in the present invention, the storage tank 200 may have one or more of the same configuration as the first storage tank 200 and the first storage tank 200.

The above-mentioned primary storage tank 210 of the present invention means an apparatus or means for performing the function of depositing the treated water while retaining the treated water through the screen.

As shown in FIG. 2B, the first storage tank 210 of the present invention is formed in the form of a pipe, and is composed of one or more tubular primary storage tubes.

The above-mentioned first storage tube is tubular, and can be variously adopted such as circular, tetragonal, and polygonal.

The primary storage tank 220 of the present invention performs the function of depositing contaminants while retaining the treated water passing through the primary storage tank and performing a function of removing large particulate matter.

As shown in FIG. 2, the first storage tank 220 is provided with a storage tank screen 221 to discharge large particles of sewage or wastewater that can not be removed from the screen.

A sludge treatment filter 222 is disposed at the lower end of the primary storage tank 220 to discharge the precipitated sludge to the outside of the primary storage tank.

The present invention is characterized in that the second storage tank 230 is connected to the reservoir screen 221 in an inclined manner.

The secondary storm drain pipe 230 according to the present invention means an apparatus or means for performing the function of depositing the treated water while passing through the primary storage tank.

As shown in FIG. 2B, the secondary storage tank 230 of the present invention is formed in the form of a pipe, and is composed of one or more secondary storage tubes.

Like the first storage tank, the second storage tank can be formed into a tubular shape, such as a circular shape, a square shape, or a polygonal shape.

In the present invention, the treated water of the sewage or wastewater flowing through the secondary storm reservoir 230 is introduced into the inflow storage tank 240.

The above-mentioned inflow storage tank 240 of the present invention means a device or means for storing the treated water through the above-mentioned second storage tank and performing the function of introducing sewage or wastewater into the cartridge filter 300 .

The inflow storage tank 240 of the present invention preferably has a cartridge inlet 241 formed at its lower end so that sewage or wastewater flows into the cartridge filter 300.

Therefore, it is preferable that the inflow storing tank 240 of the present invention is configured to be higher than the upper end water level of the cartridge filter apparatus.

A sludge treatment filter 242 is formed at the lower end of the inflow storing part 240 of the present invention to discharge the deposited sludge to the outside of the inflow storing part 240 to be treated.

The technical feature of the present invention is that the sewage or wastewater that has passed through the storage tank flows into the cartridge filter filtering apparatus 300 and is discharged to the river after pollutants are removed.

The cartridge filter apparatus 300 of the present invention means a filtration apparatus or means or facility equipped with a cartridge type filter.

As shown in FIG. 2, the cartridge filter apparatus 300 of the present invention includes a cartridge filter holding unit 310 and a cartridge filter unit 320.

The cartridge filter housing 310 of the present invention divides the cartridge filter 300 into one or a plurality of cartridge filters 320 and performs a function of mounting the cartridge filter 320 therein.

Therefore, the cartridge filter housing 310 of the present invention is partitioned by the partitioning part 330 provided in the cartridge filter filtering apparatus 300.

The waste water or wastewater flows into the cartridge filter housing 310 and is moved to another cartridge filter housing 310 through the partition 311 to be processed.

The cartridge filter unit 320 of the present invention may be installed in the cartridge filter holding unit 310 to perform a function of filtering out contaminants from the sewage or wastewater flowing into the cartridge filter unit 300, Means means.

The cartridge filter unit 320 of the present invention includes a filter unit main body 320-1 and a filter unit 322. [

As shown in FIG. 3, the filter unit main body 320-1 refers to an apparatus or means for performing a function of forming a skeleton for mounting the filter unit 322 described above.

Accordingly, the filter unit main body 320-1 has a skeletal lattice shape, a cubic shape, or the like, and has a structure in which liquid such as sewage or wastewater can freely flow out.

The technical feature of the present invention is that the filter unit 322 is not expensive but uses a net or the like that contains vegetables or the like, which is economical and has an advantage of improving efficiency.

In the case of using a filter in a conventional water treatment apparatus, it is costly to use an expensive filter as a filtration apparatus. When the filter becomes fouling, it is very troublesome and difficult to remove the contamination or replace it with a new one Respectively.

As described above, according to the present invention, the filter unit 322 uses a filter such as a net containing ordinary vegetable or the like, so that the manufacturing cost is significantly lowered. Even if the filter is contaminated, So that the efficiency of the work is remarkably enhanced.

Needless to say, the filter portion 322 of the present invention may be formed of meshes having various dimensions according to the needs of the user.

In the present invention, the sewage or wastewater treated in the one or more cartridge filter units 320 is discharged to the river through the treated water outlet 20.

The present invention provides a water treatment system (1000) for improving the quality of the river water having the above-described structure and function.

The present invention is a very useful invention for a business for processing, selling, distributing and researching sewage or wastewater.

The slope of the river (1),
The treated water inflow section 10,
The screen 100, the storage tank 200,
The primary storage tank 210, the primary storage tank 220, the secondary storage tank 230, the inflow storage tank 240,
The carage filter unit 300,
The cartridge filter holding portion 310, the cartridge filter portion 320,
The treated water outlet 20

Claims (4)

(1) that can improve the water quality of the river during the initial storm and maintain the flow rate of the river,
The treatment water inflow section 10 into which sewage or wastewater at the time of initial excellent inflow enters,
The treated water inflow section 10 is connected to a settling tank 110 through which contaminants of sewage or wastewater are settled,
A screen 100 for removing roughness or fine contaminants is formed on the side surface of the settling tank,
At the lower end of the settling tank 110, a sludge treatment filter 120 is provided to discharge and process the settled sludge,
A storage tank 200 for storing or storing sewage or wastewater that has passed through the screen for a predetermined period of time,
A cartridge filter device 300 in which the function of filtering contaminants of the incoming sewage or waste water is performed,
And a treated water outlet (20) through which treated sewage or wastewater flows out,
The storage tank 200 includes a first storage tank 210 and an inflow storage tank 240,
The primary storage expansion pipe 210 is formed in the shape of one or more pipes and is formed to be inclined so as to perform the function of depositing the treated water while retaining the treated water through the screen,
The inflow storage tank 240 functions to store treated water through the first storage tank and to perform a function of introducing sewage or wastewater into the cartridge filter 300. [ (1000).
delete The method according to claim 1,
The storage tank 200 is provided with a primary storage tank 220 that performs a function of depositing contaminants while collecting the treated water passing through the primary storage tank 210,
The water treatment system (1000) for improving the quality of the river water according to any one of claims 1 to 3, wherein the secondary storage tank (230) performs the function of depositing the treated water through the primary storage tank (220).
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