KR101453163B1 - Water treatment apparatus for early rain contaminant and combined system of sewer cso - Google Patents

Abstract

The present invention relates to an initial fine contaminant and an apparatus for treating contaminants in a combined sewer pipe. In the apparatus for treating contaminants in early fresh rainwater contaminants and combined sewage pipes according to the present invention, the initial rainwater and sewage that have passed through the screen are introduced into the radial filtration device through the inflow pipe to form a vortex and the precipitation of heavy contaminants And the pollutants are filtered in the process of passing through the radial filtration apparatus in a radial form in which the initial stormwater and sewage flow outward from the center portion. On the other hand, the treated water moves to the lower part of the conical diaphragm, and an even upward flow is formed in the upper part of the filtration tank. The treated water is discharged through the ware after reprocessing through the floating filtration membrane formed on the upper surface of the filtration tank , It is possible to maximize the efficiency of sewage treatment, and it is possible to easily treat pollutants in the early stage and contaminants (CSO) in the combined sewage pipe, and can be installed in a small space with minimized facility site.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an apparatus for treating contaminants in an initial stormwater pollutant and a combined sewer pipe,

The present invention relates to an apparatus for treating initial contaminant pollutants and contaminants in a combined sewer (CSO).

In December 2008, the Ministry of Environment enacted the "Manual on Installation, Management and Operation of Nonpoint Pollution Reduction Facility" and proposes that the efficiency standard of the treatment facility is more than 80% of Total Suspended Solid (TSS). Therefore, it is difficult to guarantee performance for existing screen type vortex sedimentation type facilities, and these facilities are used as pretreatment facilities and separate filtration facilities are installed at the downstream end to achieve the efficiency standards of the treatment facilities.

However, the filtration (filtration) facility has a structure in which the treated water passes through the fixed filtration layer filled with the filter medium, and the facility area becomes considerably large in order to secure the cross section of the water. Also, there are problems such as deterioration of function due to premature occlusion of the filtration layer, excessive use of backwash water, poor cleaning, difficulty in maintaining stable treatment efficiency, and lack of coping ability in strengthening future treatment efficiency standards.

In addition, the outflow pipe is formed at the end of the facility and is not short-circuited with the filtration treatment water, so that the filtration tends to occur and the filtration treatment such as deterioration of the treated water quality and quick occlusion of some filtration section is not performed effectively. Furthermore, in the case of the conventional stationary phase filter medium, since the filter medium exists in the same space after the initial introduction of the storm or at the end of the rainfall, the filter medium is extremely small, and the cleaning effect is significantly lowered during cleaning and filter media cleaning.

Accordingly, the present invention aims at easily achieving the treatment facility efficiency standard of the "installation and management manual of the non-point pollution abatement facility "

It is an aspect of the present invention to provide a sewage treatment plant capable of efficiently operating a sewage treatment plant through easy treatment of pollutants in the initial stormwater and pollutants in the combined sewage pipe (CSO), and to prevent environmental pollution such as natural rivers and nearby waters And to provide a pollutant treatment apparatus in an excellent pollutant and a combined sewage pipe.

To achieve this viewpoint,

The apparatus for treating contaminants in early fresh rainwater contaminants and combined sewage pipes according to the present invention comprises: a pretreatment tank provided with a raw material screen at an inlet side where sewage flowing along an initial stormwater and a combined sewage pipe flows;

A filtration tank connected to the outlet formed in the pretreatment tank through an inflow pipe and having a cylindrical screen having a filtration hole for discharging sewage, and a filtration layer disposed in a multi-stage radial structure on an outer periphery of the cylindrical screen;

A floating filter membrane formed on the top of the filtration tank through a front end surface; And

A ware formed on the top of the filtration tank;

.

Further, in the apparatus for treating contaminants in an early stage rainwater contaminant and a combined sewage pipe according to an embodiment of the present invention, the pretreatment tank may have a partition wall formed on the floor and inducing precipitation of sand that can not be filtered through the coarse screen Can be installed.

Further, in the apparatus for treating contaminants in early fresh contaminants and combined sewage pipes according to an embodiment of the present invention, one end of the inlet pipe is connected to the outlet formed in the pretreatment tank, and the other end is connected to the outlet of the cylindrical screen Tangential direction.

In addition, in the apparatus for treating contaminants in an early stage rainwater contaminant and a combined sewage pipe according to an embodiment of the present invention, the filtration layer may be spaced apart in a multi-stage radial structure.

In addition, the apparatus may further include a conical diaphragm installed on the upper surface of the screen.

These solutions will become more apparent from the following detailed description of the invention based on the attached drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor should appropriately define the concept of the term in order to describe its invention in the best way possible It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

According to the present invention, the sewage flowing along the initial stormwater and sewerage sewage pipe is filtered through a screen screen of a pretreatment tank and a radial filtration device of a filtration tank, and is discharged to the outside through a ware after reprocessing through a floating filter membrane. It is possible to easily treat pollutants in the initial rainwater and the pollutants (CSO) in the combined sewer pipe, and can be installed in a small space by minimizing the site of the facility.

Particularly, since the water shortage through the weir is performed, the influence of the flow of water due to the discharge of the treated water is eliminated and the filtration is evenly performed on the whole cross section. Thus, the filtration tipping phenomenon when the conventional outflow portion and the filtration treatment water are continuously arranged, The problem of deterioration of the treated water quality due to problems such as rapid clogging can be easily solved.

Further, the treated water is subjected to the primary treatment by the lateral filtration through the filtration layer arranged in the multi-stage radial structure on the outside of the radial filtration apparatus, and the secondary treatment by the longitudinal filtration through the floating filter membrane, It is possible to easily achieve the treatment facility efficiency standards of the "Establishment and management manual of non-point pollution abatement facility" enacted by the Ministry of the Environment by improving water quality.

1 is a perspective view showing an initial fresh contaminant and an apparatus for treating contaminants in a combined sewage pipe according to an embodiment of the present invention.
2 is a cross-sectional view of an initial fresh contaminant and an apparatus for treating contaminants in a combined sewer pipe according to an embodiment of the present invention.
3 is a cross-sectional view of an initial fresh contaminant and a confluent sewage pipe contaminant treatment device according to an embodiment of the present invention, as viewed from the front;
FIG. 4 is a sectional view showing a state where a conical diaphragm according to an embodiment of the present invention is installed on an upper portion of a radial filtration apparatus; FIG.
5 is a cross-sectional view showing a wearer according to an embodiment of the present invention in a plan view;

The specific aspects, specific technical features of the present invention will become more apparent from the following detailed description and examples, which are to be understood to be related to the appended drawings. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. Also, terms such as " first ","second"," one side ","other side ", etc. are used to distinguish one element from another element, . DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings.

The apparatus for treating contaminants in an early stage rainwater contaminant and a combined sewage pipe according to the present invention comprises a pretreatment tank 10 provided with a knocking screen 11 on the inlet 10a side and an outlet 10b of the pretreatment tank 10 A filtration tank 20 having a radial filtration device 21 including a cylindrical screen 23 connected via an inlet pipe 22 and a filtration layer 24 arranged in a multi-stage radial configuration around the outer periphery of the cylindrical screen 23; A floating oil filtration membrane 30 formed on the upper front end surface of the filtration tank 24 and a weir formed on the filtration tank 20.

Therefore, the sewage flowing along the initial storm sewer and the combined sewage pipe is subjected to lateral filtration through the radial filtration device 21 of the filtration tank 20 through the coarse screen 11 of the pretreatment tank 10, The sewage treatment efficiency can be maximized and the pollutant in the early stage can be treated easily and the pollutant (CSO) in the combined sewage pipe can be treated easily. It can be installed in space.

Here, the pre-treatment tank 10 may be formed with a needlepoint portion 13 on which a sand that can not be filtered by the screen 11 is deposited. The pretreatment tank 10 in which the precipitate 13 is formed is provided with a partition wall 12 for inducing precipitation of sand.

In addition, the filtration layer 24 is disposed outside the cylindrical screen 23 in a multi-stage radial structure. The front and rear spaces are spaced apart from each other so that the treated water can be smoothly discharged and effectively cleaned.

In addition, a conical diaphragm 25 may be provided outside the cylindrical screen 23 to form an even upward flow through which the process water flows uniformly in the upper direction from the lower portion of the filtration tank 20.

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

As shown in FIG. 1, the pretreatment tank 10 is provided with an inlet 10a through which sewage flowing along the initial stormwater and the combined sewage pipe is formed at the rear in the drawing, an outlet 10b formed at the front, 10a is provided with a wire screen or mesh screen 11 formed in the form of a mesh to pre-treat coarse contaminants contained in the initial stormwater and sewage.

That is, the sewage flowing along the combined sewer pipe is mixed with the initial storm including the road surface pollutants on each road surface during rainfall, and the sedimentation pollutants (CSO) deposited on the combined sewer pipe, and flows into natural rivers or nearby waters It can contaminate the water quality and the environment.

Therefore, a coarse screen 11 is provided on the inlet 10a side to filter out coarse particles that have not passed through the coarse screen 11 during the inflow of initial stormwater and sewage into the pre-treatment tank 10. [

2 and 4, the sedimentation part 13 formed in the pretreatment tank 10 is formed on the bottom of the pretreatment tank 10 in the form of a hopper to collect the sand in one place, 13). The sand deposited at the end of the rainfall is discharged to the outside. The partition wall 12 is formed on the side of the outlet 10b opposite to the inlet 10a to induce precipitation of sand that can not be filtered through the coarse screen 11. [

That is, the partition wall 12 is formed in the pretreatment tank 10 so that a kind of space is formed between the partition wall 12 and the bottom, thereby forming a flow such that the initial stormwater and the sewage flow from the lower part to the upper part, thereby accelerating the sand precipitation by the crushing force Through which the sand is prevented from flowing to the filtration tank 20 through the outlet 10b formed in the upper portion of the pretreatment tank 10. [

As shown in FIGS. 1 and 2, the filtration tank 20 is formed with the pretreatment tank 10 and the side wall 20a therebetween, and an outlet 20b for draining the treated water to the outside is formed on the top. The radial filtration device 21 installed in the filtration tank 20 is provided with a cylindrical screen 23 connected to the outlet 10b formed in the upper portion of the pretreatment tank 10 through an inflow pipe 22, A filtration layer (24) is disposed in a multi-stage radial configuration around the outside of the cylindrical screen (23).

The first filtration layer 24a is disposed near the cylindrical screen 23 and the first filtration layer 24a is disposed in a curtain wall. And the second filtration layer 24b is disposed on the outer periphery.

The processing water supplied to the cylindrical screen 23 through the inlet pipe 22 through the first filtration layer 24a and the second filtration layer 24b flows from the center of the cylindrical screen 23 toward the edge of the cylindrical screen 23, So that the filtration effect is maximized.

Here, the first filtration layer 24a and the second filtration layer 24b are spaced apart from each other by a predetermined distance, so that the treated water can be smoothly discharged and washed efficiently by the cleaning device 25.

1 to 4, the inlet pipe 22 connecting the radial filtration apparatus 21 and the pretreatment tank 10 is connected to the outlet 10b formed at the upper part of the pretreatment tank 10, One end is tangentially connected to the stop of the cylindrical screen 23 at a lower position, thereby being inclined at an angle of about 45 degrees.

As a result, a vortex is generated at the time of supplying sewage using the inclination of the inflow pipe 22, and precipitation is accelerated. Then, the sewage is discharged through the filtration hole 23a formed in the cylindrical screen 23.

4, the conical diaphragm 26 is formed on the upper part of the radial filtration device 21 after the plate is formed into a conical shape, and is separated from the upper part of the radial filtration device 21 so that the cleaning device 25 is installed Thereby forming a space in the inside.

The treated water that has been primarily filtered through the first and second filtration layers 24a and 24b moves to the lower portion of the conical partition plate 25 and then flows into the upper portion of the filtration tank 20 in the direction of the weir 40, And is finally discharged to the discharge port 20a through the weir 40 after the reprocessing through the floating filter membrane 30 formed on the top surface of the cylindrical screen 23 and the radial filtration device 21 , The sewage treatment efficiency can be maximized, and it can be installed in a small space.

As shown in FIGS. 3 to 5, the porthole filtration membrane 30 is provided with a porthole-type box filled with porthole media in the filtration tank 20, A cross-section through which a sort of floating upstream filtration facility is formed. In addition, a water discharge channel (40) is formed on the upper part of the filtration tank (20) to short-circuit the water flow.

Therefore, the influence of the flow of water due to the discharge of the treated water is eliminated and the filtration is evenly performed on the entire cross section. Thus, the filtration of the conventional outflow portion and the filtration treatment water are prevented, It is easy to solve the aggravation problem.

The treated water is subjected to primary treatment through the first and second filtration layers 24a and 24b and the floating filtration membrane 40 is installed on the same facility site. By treating the water, the site of the facility can be minimized and the water quality can be improved by maximizing the treatment efficiency.

Here, the processing procedure through the processing apparatus 1 according to the embodiment of the present invention is as follows. The initial stormwater and sewage that have passed through the coarse screen 11 flow in the tangential direction into the upper part of the cylindrical screen 23 through the inflow pipe 22 to form a vortex, Accelerated.

In addition, the initial stormwater and sewage are filtered in the course of passing through the cylindrical screen 23 and the first and second filtration layers 24a and 24b in a radial shape flowing outward from the center portion in the lateral direction The water is moved to the lower portion of the conical diaphragm 25 and then an even upward flow is formed in the direction of the weir 40 formed on the upper portion of the filtration tank 20. The cylindrical screen 23 and the radial filtration apparatus 21 to the discharge port 20b through the weir 40 after the reprocessing in the longitudinal direction through the floating filter membrane 30 formed over the front end surface.

Meanwhile, according to the embodiment of the present invention, the apparatus for treating contaminants in early fresh rainwater contaminants and combined sewer pipe exhausts filtration water after the end of rainfall, wherein the first and second filtration layers 24a, So that the filtration water existing between the first and second filtration layers 24a and 24b through the cleaning device 25 after the end of rainfall can be easily cleaned. That is, the washing water is sprayed in the spaced space, so that effective washing is possible.

In addition, the pseudo filter media contained in the perforated net-like box is loose when the lower residual water is discharged, so that sufficient space is formed between the filter media to facilitate cleaning.

Although the present invention has been described in detail with reference to the embodiments thereof, it is to be understood that the present invention is not limited thereto. The present invention is not limited to the apparatus for treating pollutants in the early stage rainwater and the combined sewage pipe according to the present invention, It will be apparent to those skilled in the art that modifications and improvements can be made thereto by those skilled in the art.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 - processing apparatus 10 - pretreatment tank
10a - entrance 10b - exit
11 - Entry screen 12 -
13 - a sinker 20 - a filtration tank
20a-side wall 20b-outlet
21 - Radial filtration device 22 - Inflow pipe
23 - Cylindrical screen 23a - Filtration hole
24 - filtration layer 24a - first filtration layer
24b - second filtration layer 25 - cleaning device
26 - Conical diaphragm 30 - Buffering membrane
40 - Wear

Claims (5)

A pretreatment tank provided with an entry screen on the inlet side into which sewage flowing along the initial stormwater and the combined sewage pipe flows;
A filtration tank connected to the outlet formed in the pretreatment tank through an inflow pipe and having a cylindrical screen having a filtration hole for discharging sewage, and a filtration layer disposed in a multi-stage radial structure on an outer periphery of the cylindrical screen;
A floating filter membrane formed on the top of the filtration tank through a front end surface; And
A ware formed on the top of the filtration tank;
/ RTI >
Wherein the inlet pipe is connected at one end to an outlet formed in the pretreatment tank and the other end is connected in tangential direction to a stop of the cylindrical screen at a position lower than the outlet.
The method according to claim 1,
Wherein the pretreatment tank is provided with a septum portion on the bottom and partition walls for inducing sedimentation of sand that can not be filtered by the seeping screen through the seeping screen.
delete The method according to claim 1,
Wherein the filtration layer is spaced apart in a multi-stage radial configuration.
A pretreatment tank provided with an entry screen on the inlet side into which sewage flowing along the initial stormwater and the combined sewage pipe flows;
A filtration tank connected to the outlet formed in the pretreatment tank through an inflow pipe and having a cylindrical screen having a filtration hole for discharging sewage, and a filtration layer disposed in a multi-stage radial structure on an outer periphery of the cylindrical screen;
A floating filter membrane formed on the top of the filtration tank through a front end surface;
A ware formed on the top of the filtration tank; And
A conical diaphragm installed on the upper portion of the cylindrical screen;
And an apparatus for treating contaminants in a combined sewer pipe.

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