KR101743712B1 - Non-Point Source Contaminant Treatment Apparatus Having Reverse-washing - Google Patents

Abstract

The present invention relates to a nonpoint pollution abatement facility equipped with a backwash function. The non-point pollution abatement facility equipped with the backwashing function according to an embodiment of the present invention includes a stormwater inflow pipe into which initial stormwater flows and a rectifying screen that is connected to the stormwater inflow pipe and separates the coarse- A configured reservoir; An air injection member for injecting high pressure air to backwash the filtration means and an effluent injection means for injecting the effluent water backward, ; A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control means for controlling the discharge pump, the air injection member and the effluent injection means.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a non-point source contaminant treatment apparatus having a back-

The present invention relates to a nonpoint pollution abatement facility equipped with a backwash function. More particularly, the present invention relates to a method for separating contaminants attached to a porous filter, which is filtered by microvibration of a rising bubble, by supplying high-pressure air so that contaminants adsorbed on the outer surface of the porous filter are back- To a non-point pollution abatement facility equipped with a backwash function capable of maximizing the backwash function.

Generally, pollutants are pollutants such as dirty sewage, industrial wastewater, and livestock wastewater, which are discharged from point sources with limited clear point sources, and also pollutants such as agricultural lands, pastures, forests, construction sites, mines, Discharge areas, such as landfills, urban areas, roads and industrial sites, can be divided into nonpoint pollutants emitted from a wide range of nonpoint pollution sources.

The pollutants discharged from the above-mentioned pollution sources are distributed in various forms such as heavy metals, pathogenic microorganisms, organic compounds, radioactive substances, toxic substances and other salts. Therefore, rainwater is washed away in rain, As it flows into waters and groundwater and causes water pollution, it destroys the ecosystem and ultimately damages human beings.

Accordingly, the present applicant has filed a Korean Patent Application No. 10-0894022 for a non-point pollutant treatment device.

As shown in FIG. 1, the prior art document includes a variable weld 12 formed upwardly protruding inward to allow an initial rainfall runoff to flow therein, an intense pipe 10 having an inlet pipe formed at one side thereof, A first treatment section 20 including a solids separator 22 for separating effluent and solids, an oil water separator 24 for separating effluent and oil components, and a settling tank 26 for storing solid matter are formed, A filtration sedimentation tank 32 in which contaminants contained in the effluent treated in the first treatment unit 20 are precipitated and a second treatment unit 30 provided with a microfiltration wall 34 for purifying the effluent, The cartridge porous filter 42 in which the flow-out member 44 is installed so that the effluent treated in the cartridge porous filter 42 is fixed, the fixing portion 46 to which the cartridge porous filter 42 is fixed, A third processing unit 40 including a second processing unit 48, A storage tank 50 for storing the effluent treated with the non-point pollutant by the third treatment unit 40, and a drainage facility 60 for discharging the effluent.

However, the non-point pollutant treatment apparatus described above can treat non-point pollutants contained in the effluent at the time of initial rainfall through a plurality of filtration processes and allows the effluent stored in the treatment apparatus to be completely discharged, It is not easy to treat contaminants adsorbed to the cartridge porous filter 42 constituted in the third processing unit 40 and functions to perform self-cleaning through backflow of effluent water However, there is a problem that the treatment efficiency is low.

Accordingly, there is a need for a method capable of further enhancing the backwashing function of the apparatus for treating non-point pollutants.

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Korean Patent Publication No. 10-0894022

In order to solve such problems, the present invention has been devised in order to solve the above-mentioned problems, and it is an object of the present invention to provide an air filtering apparatus and an air filtering apparatus which supply high-pressure air so that contaminants adsorbed on the outer surface of a porous filter are back- The present invention provides a non-point pollution abatement facility equipped with a backwash function capable of maximizing the backwash function by separating contaminants attached to the porous filter and discharging the contaminants together with backwash water.

It is another object of the present invention to provide a non-point pollution abatement facility equipped with a backwash function that facilitates the maintenance of the ultra-fine processing unit by efficiently backwashing the porous filter.

In order to achieve the above object,
The non-point pollution abatement facility equipped with the backwashing function according to an embodiment of the present invention includes a stormwater inflow pipe into which initial stormwater flows and a rectifying screen that is connected to the stormwater inflow pipe and separates the coarse- A configured reservoir;
An air injection member for radially injecting high pressure air so as to perform backwashing of the filtration means by vibration and an outflow of the effluent water, A filtering treatment tank having an effluent spraying means for spraying;
A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control valve for controlling the movement of the discharge vessel; And
And control means for controlling the discharge pump, the air injection member and the effluent injection means,
The air injection member includes an air supply means for supplying compressed air under the control of the control means, and an air injection means connected to the air supply means and configured to penetrate the upper side portion and the side portion of the injection body portion, And an injection nozzle for injecting the compressed air supplied from the air supply means toward the injection hole side,
Wherein the rectifying screen comprises a screen body configured to be connected to the storm inflow pipe so as to allow an initial storm to flow therein, a screen coupled to the interior of the screen body to form a mesh to separate the coarse solidified suspended material and the initial storm, A screen bracket for fixing and an over-protecting lid for shielding the initial storm to prevent overflow to the upper part of the storage tank.

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In addition, in the nonpoint pollution reduction facility having the backwashing function according to an embodiment of the present invention, the storage tank is configured to perform secondary purification by depositing the stormwater rectified through the rectifying screen, An excellent supply member may be further provided so that only the purified water can be supplied to the filtration treatment tank.

According to another aspect of the present invention, there is provided a non-point pollution reduction facility having a backwash function, wherein the filtration unit includes a porous filter member having a purification hole for primary filtration of rainwater supplied from a storage tank; An inlet and outlet hole formed in the porous filter member for performing a secondary filtration process on the storm that has undergone the primary filtration treatment, and a filter cartridge for discharging the effluent water subjected to the secondary filtration process; The porous filter member and the filter cartridge are installed and the effluent discharged from the filter cartridge and the storm supplied from the storage tank are prevented from being mixed with each other and the air jetting member is installed inside and the effluent spraying means is mounted on the upper part Shielding frame.

According to another aspect of the present invention, there is provided a non-point pollution reduction facility equipped with a backwashing function, wherein the shielding frame includes a collecting groove for collecting effluent sprayed through the effluent spraying unit at the central portion during backwashing, An induction hole formed so as to be inclined to induce polluted effluent to the collecting groove side can be constructed.

In the nonpoint pollution reduction facility equipped with the backwashing function according to an embodiment of the present invention, the air injection member includes air supply means for supplying compressed air under the control of the control means; And a spray nozzle connected to the air supply means and having a spray hole for spraying compressed air to be supplied, and a spray nozzle for spraying the compressed air supplied from the air supply means toward the spray hole.

According to another aspect of the present invention, there is provided a non-point pollution reduction facility having a backwash function, wherein the effluent discharge unit is connected to the discharge tank at one end thereof, And an injection nozzle disposed at an end of the effluent circulation line and positioned at a lower portion of the filter cartridge to inject effluent water.

According to one embodiment of the present invention, high-pressure air is supplied to backwash the contaminants adsorbed on the outer surface of the porous filter, and contaminants adhered to the porous filter, which is filtered by micro- So that the backwashing function can be maximized.

In addition, according to an embodiment of the present invention, since the porous filter is automatically backwashed, efficient backwashing is possible, thereby reducing the maintenance cost of the ultra-fine wastewater treatment device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a conventional non-point pollutant treatment apparatus. FIG.
2 is a cross-sectional view illustrating a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention;
FIG. 3 is a plan view showing a main portion of a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention. FIG.
4 is an enlarged view of a porous filter unit of a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention.
5 is a perspective view schematically illustrating a porous filter unit of a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention.
6 is a cross-sectional view schematically illustrating a porous filter unit of a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention;
7 is a cross-sectional view of a nonpoint pollution abatement facility equipped with a backwash function according to an embodiment of the present invention.

In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It should be understood that an element may be "connected," "coupled," or "connected."

FIG. 2 is a view showing a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention, and FIG. 3 is a view showing a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention. FIG. 4 is an enlarged view of a porous filter unit of a nonpoint pollution reduction facility equipped with a backwashing function according to an embodiment of the present invention. FIG. 5 is a cross- FIG. 6 is a cross-sectional view schematically showing a porous filter unit of a non-point pollution abatement facility equipped with a backwash function according to an embodiment of the present invention, FIG. 7 is a cross- FIG. 3 is a view showing another embodiment of a nonpoint pollution reduction facility equipped with a backwash function according to an embodiment of the present invention.
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawing, the apparatus for reducing non-point pollution of the present invention includes a storage tank 200 to which a stormwater inflow pipe 210 is connected so that initial stormwater is introduced, a porous filter And a discharge tank 400 for discharging the filtered filtrate through the porous filter unit 310. [

The storage tank 200 includes a rectifying screen 220 for separating the coarse solidified suspended solids contained in the initial stormwater flowing from the storm inflow pipe 210 and a solid material The storage tank 200 is connected to the manhole 102 at an upper portion thereof so that the rectification screen 220 can be replaced and maintained.

In this storage tank 200, a through hole 202 through which the storm inflow pipe 210 passes is formed at one upper portion, and a through hole 202 through which the coarse storable suspended solids and the initial storm are separated through the rectifying screen 220 And an excellent supply hole 204 for supplying the storm that has completed the car purification process to the filtration treatment tank 300 side is formed.

Here, the through holes 202 and the fine supply holes 204 are formed so as to be located on the same center line, so that only the fine having the settling process is supplied to the filtration treatment tank 300 side through the fine supply holes 204 But is not limited thereto.

The rectifying screen 220 configured in the storage tank 200 is detachably coupled to the storage tank 200 and includes a screen main body 222 connected to the storm inflow pipe 210 so as to allow the initial storm to flow therein, And a screen 224 made of mesh so as to separate the coarse solidified suspended material (hereinafter referred to as suspended material) and the initial gap.

The rectifying screen 220 also includes a screen bracket 226 for securing the screen 224 to the screen body 222 and an over protective lid 228 that shields the initial storm to prevent overflow to the top of the storage vessel 200 ).

In this case, it is needless to say that the over-protecting cover 228 can be configured to be openable and closable on the top of the screen main body 222.

The rectifying screen 220 separates the initial storm introduced through the storm inflow pipe 210 and the suspended solids included in the initial storm and releases the separated suspended solids to the outside by opening the over- Wherein the screen 224 is detached from the screen bracket 226 so that the replacement operation of the screen 224 is performed at the same time.

In addition, it is needless to say that the storage tank 200 of the present invention is configured to further prevent the leakage of the storm by further providing a sealing member at a portion where the storm inflow pipe 210 and the rectification screen 220 are installed.

In the storage tank 200 of the present invention configured as described above, the initial storm that has passed through the screen 224 of the rectifying screen 220 is stored for a predetermined period of time to be settled, So that the first separation is performed through the rectification screen 220 and the second separation is performed by the precipitation method. Thus, the purification treatment of the initial separation .

As shown in FIG. 6, in the storage tank 200 of the present invention, only the excellent oil that has been purified by precipitation in the storage tank 200 is supplied to the filtration treatment tank 300 side through the excellent supply hole 204 The supply member 230 may be further configured to be able to be provided.

The upper supply member 204 is connected to the filtration treatment tank 300 and the lower portion of the supply member 230 is located in the storage tank 200, The supply of the purified water is performed using the internal pressure of the filtration tank 200, the supply pressure of the initial storm, and the internal pressure difference of the filtration treatment tank 300.

The storm supply member 230 sucks the initial storm stored in the storage tank 200 under the control of the control unit 500 to be described later and supplies the initial stormwater to the filtration treatment tank 300 through the storm supply member 230 A suction pump (not shown) may be further provided, but the present invention is not limited thereto.

The filtration treatment tank 300 is a device for purifying the effluent from which the purified effluent from the storage tank 200 is supplied and the solids and fine contaminants contained in the effluent are removed. A shielding means 302 for shielding the filtration treatment tank 300 is formed and connected to the manhole 102 on the ground and the filtration means 304 And a discharge hole 306 for discharging the filtered effluent to the discharge tank 400 is formed.

The filtration means 304 comprises a porous filter member 310, a filter cartridge 320, an air injection member 330 and a shielding frame 340.

The porous filter member 310 is a constituent element for performing an excellent primary filtration process that is introduced through the fine supply hole 204 formed in the storage tank 200. A purifying hole 312 made of a mesh is formed along the outer peripheral surface.

The porous filter member 310 is configured on the inner peripheral surface of the lower end to constitute an air injection member 330 for spraying high pressure air to backwash the porous filter member 310 of the filtration means 304 and the filter cartridge 320 .

In addition, the porous filter member 310 includes a filter (not shown) spaced apart from the inner circumferential surface of the porous filter member 310 by a predetermined distance, an outlet through which the stormwater passing through the purification hole 312 is subjected to a secondary filtration process, The cartridge 320 is constructed.

The filter cartridge 320 is formed with the outflow grooves 322 through which the effluent discharged through the primary filtration passes along the outer circumferential surface or the backwash water supplied for the backwashing together with the high pressure air.

The inlet and outlet grooves 322 are formed to have a size that is 1/2 of the size of the porous filter member 310 and the density is also at least two times greater than that of the porous filter member 310, So that filtration treatment of fine foreign matters not filtrated is performed.

A plurality of porous filter members 310 and a plurality of filter cartridges 320 are provided on the upper portion of a shielding frame 340 to be described later. The porous filter member 310 has a structure in which a lower end portion is inserted into an upper portion of the shielding frame 340 And the filter cartridge 320 is configured such that only the outflowed water passing through the shielding frame 340 and having been subjected to the filtration process is introduced into the inside of the shielding frame 340.

That is, in the filtration means 304 of the present invention, the porous filter member 310 and the filter cartridge 320 discharge only the outflow water separated through the separation process of the fine foreign matters and the stormwater into the inside of the shielding frame 340, (400).

The air injection member 330 is constituted by an air supply means 335 for producing and supplying compressed air under the control of the control means 500. The air injection means 330 is connected to the air supply means 335, The injection body portion 332 is formed.

The jetting body 332 is disposed between the inner peripheral surface of the lower end of the porous filter member 310 and the outer peripheral surface of the lower end of the filter cartridge 320 so as to inject the air supplied from the air supply means 335 upward, 310 and the filter cartridge 320 are formed on the inner circumferential surface and the outer circumferential surface side of the filter cartridge 320 so as to generate vibration.

The injection hole 334 is formed so as to pass through the upper and side portions of the injection main body portion 332 so that the compressed air injected into the upper portion of the compressed air can be removed together with the effluent flowing backward, The compressed air is injected through the porous filter member 310 and the filter cartridge 320 to cause vibration to be more efficiently removed.

The spray nozzle 332 is disposed between the spray main body 332 and the air supply means 335 and injects the compressed air supplied through the air supply means 335 toward the spray hole 334 of the spray main body 332 336).

The air injection member 330 of the present invention is integrally formed on the upper surface of the injection body 332 and communicates with the injection hole 334 so that the air supply means 335 and the injection nozzle 336 A radial discharge nozzle 338 for maximizing the removal efficiency of the foreign substances is provided by upwardly discharging the compressed air supplied through the porous filter member 310 and the filter cartridge 320 of the filtration means 304, Can be further configured.

The shielding frame 340 divides the inside of the filtration tank 300 to prevent mixing of the filtration effluent through the stormwater flowing from the storage tank 200 and the filtered effluent through the filtration means 304 while the filtration means 304 and the effluent And is a component to which the injection means 410 is mounted.

This shielding frame 340 is formed with a fixing groove 348 to which the porous filter member 310 is coupled and a filter cartridge 320 is mounted on the inside of the fixing groove 348, A communication hole 346 through which filtered effluent water is introduced into the inside is formed.

A collecting groove 342 is formed in the upper central portion of the chassis frame 340. The collecting groove 342 includes a discharge pump 350 for collecting effluent water flowing backward and mixing with foreign matter when the backwashing is performed and discharging the collected effluent. An induction hole 344 formed to be inclined is formed to guide the contaminated effluent to the groove 342 side.

The shielding frame 340 moves the filtered effluent to the side of the outlet tank 400. The filtered effluent is mixed with the foreign material by backwashing and the contaminated effluent is guided to the collecting groove 342 to be discharged to the outside .

On the other hand, in the inside of the shielding frame 340, the effluent stored in the discharge tank 400 is circulated in the lower part of the filter cartridge 320 so that the lower part of the filter cartridge 320 and the shielding frame 340 are communicated with each other An effluent injection means 410 is provided for allowing the porous filter member 310 and the filter cartridge 320 to be cleaned of foreign matter adsorbed on the outer surface of the filter cartridge 320.

The effluent spraying means 410 includes an effluent circulation line 412 having one end connected to the discharge tank 400 and the other end positioned at the lower portion of the filter cartridge 320 so as to inject the effluent water flowing backward, And an injection nozzle 414 constituted at an end of the line 412 and positioned at the lower portion of the filter cartridge 320 to inject the effluent.

The effluent injection means 410 is connected to the discharge pump 420 driven by the control means 500 under the control of the control means 500 and through a component such as a pipe or a hose so as to be supplied with the effluent and sprayed through the injection nozzle 414 do.

Meanwhile, the air injection member 330 and the effluent spraying unit 410 of the present invention are controlled through the control unit 500 to be simultaneously driven when backwashing is performed, and the backwashing time is preferably 5 to 10 minutes is required per minute backwash quantity is configured to consist of the effective volume of 1 per 0.35m ³ ~ 0.45m ³ of the porous filter member 310 and filter cartridge 320.

The effluent tank 400 is a component for storing the filtered effluent water flowing into the inside of the shielding frame 340 and discharging the effluent water to the outside when the stored effluent water reaches a predetermined amount or more.

The outlet tank 400 is provided with an effluent water supply pipe 402 through which filtered effluent water is supplied from the shielding frame 340 and allows backwashing of the effluent water during backwashing. (404).

In addition, a discharge pump 420 is provided to provide power under the control of the control means 500 for discharging and backwashing the effluent, and is connected to the discharge pump 420 so that the effluent can be discharged and flowed backward An effluent transfer line 422 through which the effluent flows and a control valve 424 are constructed.

The control valve 424 includes a discharge control valve 424a for opening and closing an effluent discharge line 422 connected to the discharge pipe 404 so as to discharge the effluent water and an effluent discharge line 420 connected to the effluent discharge line 420 connected to the effluent discharge means 420 422 to open and close the drainage water so as to flow back the stored effluent to spray the effluent water.

The control unit 500 controls the operation of the various pumps and the control valves, which are driven for filtration and backwashing of the effluent.

In the non-point pollution reduction facility of the present invention having the above-described structure, the high-pressure air is supplied to backwash the contaminants adsorbed on the outer surface of the porous filter member 310, The backwashing function can be maximized and the porous filter member 310 can be backwashed automatically so that efficient backwashing can be performed. Accordingly, it is an invention that can reduce the maintenance cost of the ultra-fine processing apparatus.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to those precise embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them.

It is also to be understood that the terms such as " comprises, "" comprising," or "having ", as used herein, mean that a component can be implanted unless specifically stated to the contrary. And all terms including technical and scientific terms are to be construed in a manner generally known to one of ordinary skill in the art to which this invention belongs, It has the same meaning as understood.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

200: storage tank 210: storm inflow pipe
220: rectification screen 230: good supply member
300: filtration treatment 302: shielding means
304: Filtration means 310: Porous filter element
320: filter cartridge 330: air jet member
340: Shielding frame 350: Discharge pump
400: discharge tank 410: effluent spraying means
420: discharge pump 422: effluent transfer line
424: Control valve

Claims (7)

A nonpoint pollution abatement facility equipped with a backwash function,
A reservoir comprising a stormwater inflow pipe into which initial stormwater flows and a rectifying screen which is connected to the stormwater inflow pipe and separates the coarse solid suspended matter and the initial stormwater;
An air injection member for radially injecting high pressure air so as to perform backwashing of the filtration means by vibration and an outflow of the effluent water, A filtering treatment tank having an effluent spraying means for spraying;
A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control valve for controlling the movement of the discharge vessel; And
And control means for controlling the discharge pump, the air injection member and the effluent injection means,
The air injection member includes an air supply means for supplying compressed air under the control of the control means, and an air injection means connected to the air supply means and configured to penetrate the upper side portion and the side portion of the injection body portion, And an injection nozzle for injecting the compressed air supplied from the air supply means toward the injection hole side,
Wherein the rectifying screen comprises a screen main body connected to the storm inflow pipe for inflow of initial storm;
A screen made of mesh so as to be coupled to the interior of the screen body to separate the coarse solid suspended matter and the initial storm;
A screen bracket for fixing the screen to a screen body; And
An over-cover that shields the initial storm to prevent overflow to the upper portion of the storage tank;
Wherein the backwashing facility is provided with a non-point pollution abatement facility.
delete A nonpoint pollution abatement facility equipped with a backwash function,
A reservoir comprising a stormwater inflow pipe into which initial stormwater flows and a rectifying screen which is connected to the stormwater inflow pipe and separates the coarse solid suspended matter and the initial stormwater;
An air injection member for radially injecting high pressure air so as to perform backwashing of the filtration means by vibration and an outflow of the effluent water, A filtering treatment tank having an effluent spraying means for spraying;
A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control valve for controlling the movement of the discharge vessel; And
And control means for controlling the discharge pump, the air injection member and the effluent injection means,
The air injection member includes an air supply means for supplying compressed air under the control of the control means, and an air injection means connected to the air supply means and configured to penetrate the upper side portion and the side portion of the injection body portion, And an injection nozzle for injecting the compressed air supplied from the air supply means toward the injection hole side,
The storage tank is configured to perform secondary purification by depositing the stormwater rectified through the rectifying screen and further comprises an excellent supply member for supplying only the stormwater treated by the sediment to the filtration treatment tank A non-point pollution abatement facility equipped with a backwash function.
A nonpoint pollution abatement facility equipped with a backwash function,
A reservoir comprising a stormwater inflow pipe into which initial stormwater flows and a rectifying screen which is connected to the stormwater inflow pipe and separates the coarse solid suspended matter and the initial stormwater;
An air injection member for radially injecting high pressure air so as to perform backwashing of the filtration means by vibration and an outflow of the effluent water, A filtering treatment tank having an effluent spraying means for spraying;
A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control valve for controlling the movement of the discharge vessel; And
And control means for controlling the discharge pump, the air injection member and the effluent injection means,
The air injection member includes an air supply means for supplying compressed air under the control of the control means, and an air injection means connected to the air supply means and configured to penetrate the upper side portion and the side portion of the injection body portion, And an injection nozzle for injecting the compressed air supplied from the air supply means toward the injection hole side,
Wherein the filtration means comprises a porous filter member having a purification hole for primary filtration of rainwater supplied from a storage tank;
An inlet and outlet hole formed in the porous filter member for performing a secondary filtration process on the storm that has undergone the primary filtration treatment, and a filter cartridge for discharging the effluent water subjected to the secondary filtration process; And
The porous filter member and the filter cartridge are installed and the effluent discharged from the filter cartridge and the storm supplied from the storage tank are prevented from being mixed with each other, the air spraying member is installed inside, and the effluent spraying means is installed Shielding frame;
Wherein the non-point pollution abatement facility has a backwash function.
The method of claim 4,
Wherein the shielding frame comprises a collecting groove for collecting effluent sprayed through the effluent spraying means in backwashing at a central portion thereof and an induction hole formed obliquely for guiding the effluent contaminated to the collecting groove side, A non-point pollution abatement facility.
A nonpoint pollution abatement facility equipped with a backwash function,
A reservoir comprising a stormwater inflow pipe into which initial stormwater flows and a rectifying screen which is connected to the stormwater inflow pipe and separates the coarse solid suspended matter and the initial stormwater;
An air injection member for radially injecting high pressure air so as to perform backwashing of the filtration means by vibration and an outflow of the effluent water, A filtering treatment tank having an effluent spraying means for spraying;
A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control valve for controlling the movement of the discharge vessel; And
And control means for controlling the discharge pump, the air injection member and the effluent injection means,
The air injection member includes an air supply means for supplying compressed air under the control of the control means, and an air injection means connected to the air supply means and configured to penetrate the upper side portion and the side portion of the injection body portion, And an injection nozzle for injecting the compressed air supplied from the air supply means toward the injection hole side,
A radial discharge nozzle integrally formed at an upper portion of the spray body and communicating with the spray hole to discharge the compressed air in a radial manner to impart vibration to the filtration means;
Further comprising a backwashing function.
A nonpoint pollution abatement facility equipped with a backwash function,
A reservoir comprising a stormwater inflow pipe into which initial stormwater flows and a rectifying screen which is connected to the stormwater inflow pipe and separates the coarse solid suspended matter and the initial stormwater;
An air injection member for radially injecting high pressure air so as to perform backwashing of the filtration means by vibration and an outflow of the effluent water, A filtering treatment tank having an effluent spraying means for spraying;
A discharge pump connected to the discharge pump to discharge the effluent water to the effluent water line, and a plurality of outflow water lines connected to the effluent pump, And a control valve for controlling the movement of the discharge vessel; And
And control means for controlling the discharge pump, the air injection member and the effluent injection means,
The air injection member includes an air supply means for supplying compressed air under the control of the control means, and an air injection means connected to the air supply means and configured to penetrate the upper side portion and the side portion of the injection body portion, And an injection nozzle for injecting the compressed air supplied from the air supply means toward the injection hole side,
An effluent circulation line having one end connected to the discharge tank and the other end positioned at a lower portion of the filter cartridge to discharge the backwash water flowing backward; And
A spray nozzle disposed at an end of the effluent circulation line and positioned at a lower portion of the filter cartridge to spray the effluent;
Wherein the non-point pollution abatement facility has a backwash function.

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