KR101275854B1 - Drain system for rainwater, polluted water - Google Patents

Abstract

The present invention relates to the field of civil engineering and the environment, and more particularly, to a drainage system for guiding drainage of rainwater and / or sewage. In particular, the present invention is connected to the drainage passage 10 through which the right and the wastewater are drained, and the right and the wastewater of the drainage passage 10 bypasses the main body portion 100 and the right and the wastewater bypassing the main body portion 100. A screen 200 for filtration; The main body part 100 has an inlet 104 through which the right and the waste water flows from the drainage passage 10 on one side of the upper and lower surfaces thereof so that the rotational water flow W may be formed, and the other side of the side surface. A discharge port 106 through which the right and the sewage is discharged from the main body part 100 to the drainage path 10 is formed, and a side surface of the inner space 102 is curved along the circumferential direction; The screen 200 presents a drainage system, characterized in that installed in the outlet 106 of the main body 100.

Description

Drainage system {DRAIN SYSTEM FOR RAINWATER, POLLUTED WATER}

The present invention relates to the field of civil engineering and the environment, and more particularly, to a drainage system for guiding drainage of rainwater and / or sewage.

Most urban rainwater and sewage (sewage) is discharged to the river (2) through the drain (10).

By the way, the screen is installed on the outlet side of the drainage channel 10 to the stream so that the contaminants are not discharged to the stream 2 together with rainwater and sewage, in this case, the smaller the mesh size of the screen, sludge, The fine contaminants such as heavy metals can be purified, but there is a disadvantage that the screen can be easily contaminated and clogged. Therefore, the screen has to be washed and replaced from time to time.

In addition, when the flow rate of rainwater and sewage is not large, fine contaminants, etc. are easily deposited in the drainage passage 10, which may cause contamination of the drainage passage 10 itself. And, above all, the drainage passage 10 is considerably long and is not easily accessible, so the cleaning of the drainage passage 10 is not easy.

The present invention has been made in order to solve the above problems, to provide a drainage system that can sufficiently filter the fine contaminants in the drainage passage 10, and to easily maintain and repair the drainage passage 10, the screen 200. For that purpose.

In order to solve the above problems, the present invention is connected to the drainage passage 10 in which the right and the wastewater are drained, and the main body 100 in which the right and the wastewater of the drainage passage bypasses the bypass, and the main body portion 100. To include, the screen 200 for filtering the sewage; The main body part 100 has an inlet 104 through which the right and the waste water flows from the drainage passage 10 on one side of the upper and lower surfaces thereof so that the rotational water flow W may be formed, and the other side of the side surface. A discharge port 106 through which the right and the sewage is discharged from the main body part 100 to the drainage path 10 is formed, and a side surface of the inner space 102 is curved along the circumferential direction; The screen 200 presents a drainage system, characterized in that installed in the outlet 106 of the main body 100.

The inlet 104 of the main body 100 may be formed to allow the right and the sewage to flow in the tangential direction of the inner space 102 of the circular structure.

In addition, the present invention is connected to the drainage passage 10 through which the right and the wastewater are drained, the main body part 100 to bypass the right and the wastewater of the drainage path 10, and the internal space 102 of the main body part 100. It includes a guide member (110) for guiding the right, the sewage, the right to bypass the main body portion (100), the screen 200 for filtering the sewage so that the rotational flow (W) can be generated; The main body 100 has an inlet 104 through which the right and the sewage flows from the drainage passage 10 on one side of the upper and lower surfaces thereof, and the drainage passage 10 from the main body 100 on the other side of the side. The right and the waste water discharge outlet 106 is formed, and the drainage system characterized in that the screen 200 is installed in the outlet 106 of the main body portion 100 is presented together.

The guide member 110 may be formed of a curved pipe connected to the inlet 104 of the main body 100.

The main body 100 is installed in parallel with the drainage passage 10, and the bypass hole 12 bypassing the right and the wastewater to the main body portion 100 on one side of the upper and lower surfaces of the drainage passage 10. The recovery port 14 may be formed at the other side of the drainage passage 10 to bypass the main body 100 and recover waste water.

The bypass outlet is opened on the upper surface of the main body 100 so that the right and the filth can be discharged from the main body 100 to the drain passage 10 of the main body 100 to be discharged to the drainage passage 10. 108 may be formed.

The screen 200 may be made of a microfiber filter.

When the water level in the drainage passage 10 is lower than the predetermined water level in the drainage passage 10, the right and the wastewater in the drainage passage 10 bypass the main body part 100, and the water level in the drainage passage 10 is the predetermined water level. If the above, the partition wall 20 may be provided so that the right and the wastewater in the drainage passage 10 may be drained along the drainage passage 10 without being detoured to the main body 100.

The partition wall 20 has a right upstream side along the right and the excellent drainage direction in the drainage passage 10 along the right and the wastewater drainage direction in the drainage passage 10 with respect to a direction crossing the drainage passage 10. Can be sloped to a curved surface.

Pre-treatment main body portion 1100 installed between the drainage passage 10 and the main body portion 100 so that the right and wrong circumference from the drainage passage 10 to the main body portion 100 may be pretreated. And a pretreatment screen 1200 for filtering the right and the waste water discharged from the unit 1100 to the main body unit 100; The pretreatment main body 1100 has an internal space 102 in which the right and the filthy water are freshwater and the contaminants in the right and the sewage are precipitated, and the drainage passage 10 is disposed on one side of the pretreatment main body 1100. The right and the inlet 104 is introduced into the sewage, the discharge port 106 is discharged to the right, the waste water is formed on the upper surface of the pre-treatment main body portion 1100, the outlet 106 of the pre-treatment main body portion 1100 The pretreatment screen 1200 may be installed.

According to the present invention, only the initial excellent water can be separated and efficiently treated to fine contaminants. In particular, the screen can be automatically cleaned by the rotational water flow formed in the main body, so that management can be facilitated. In addition, according to the present invention, the contamination of the drainage can be prevented.

1 is an application example of a drainage system according to the prior art.
2 or less relates to the drainage system according to the present invention,
2 is a perspective view according to a first embodiment;
3 is a cross-sectional view taken along the line DD of FIG. 2.
4 is a cross-sectional view taken along line EE of FIG. 3.
In Figure 5, (a) is a perspective view from the front of the wedge wire screen, (b) is a perspective view from above inclined.
6 is a partially enlarged cross-sectional view of the wedge wire and the slit constituting the wedge wire screen.
7 is a cross-sectional view according to the second embodiment, corresponding to FIG. 3.
8 is a cross-sectional view taken along line FF of FIG. 7.

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

2 to 6, the drainage system according to the present invention is basically connected to the drainage passage 10 through which the right and the wastewater are drained, and the main body portion 100 which bypasses the right and the wastewater of the drainage passage 10. And, the right to bypass the main body portion 100, it may include a screen 200 for filtering the sewage.

In particular, the main body 100 has an inlet 104 through which the right and the waste water flows from the drainage passage 10 on one side of the upper and lower surfaces thereof, and from the main body portion 100 to the drainage passage 10 on the other side. A discharge port 106 through which wastewater is discharged may be formed, and the screen 200 may be installed at the discharge hole 106 of the main body part 100 at the discharge hole 106 of the main body part 100.

That is, since the right and the wastewater inflow direction at the inlet 104 of the main body portion 100 and the right and the wastewater discharge direction at the discharge port 106 of the main body portion 100 are different from each other, Right and right, the sewage may not be discharged through the outlet 106 of the main body 100 directly, but may be discharged after being sufficiently fresh in the internal space 102 of the main body 100. Therefore, the precipitation can be sufficiently performed in the internal space 102 of the body portion 100, the filtration efficiency can be increased. In addition, since the right and the wastewater is discharged through the screen 200 after the first purification process by the sedimentation as described above, the filtration processing load on the screen 200 may be reduced, so that the long time use of the screen 200 is performed. This can be made possible.

In addition, the contaminants may be collected in the internal space 102 of the main body 100, and the contaminants may be prevented from being deposited in the drainage path 10, and may be collected in the internal space 102 of the main body 100. In addition, the removal of precipitated contaminants can be facilitated.

In addition, the inner space 102 of the main body portion 100 may be characterized in that the rotational water flow (W) having the up and down direction (arrow A) as the axial center due to the rapid flow due to the right, the sewage.

Therefore, the screen 200 may be wiped by the rotational water flow W, and thus the screen 200 may be continuously washed, which may be advantageous in terms of maintenance and repair.

Here, in order to form the above-mentioned rotational water flow W, for example, the inner space 102 of the main body portion 100 forms a circular structure, the main body portion 100 has a side surface of the inner space 102 along the circumferential direction. It may be formed into a curved surface. In addition, the inlet 104 of the main body 100 is formed to allow the right and the sewage to flow in the tangential direction of the inner space 102 of the circular structure, more than the rotational water flow (W) formation, as in the cyclone principle. May be advantageous.

Alternatively, in order to form the rotational flow W, the guide member 110 for guiding the sewage may be installed so that the rotational flow W may be generated in the internal space 102 of the main body 100. have. The guide member 110 may be any one as long as it can induce the generation of rotational water (W), and is preferably connected to the inlet 104 of the main body 100 and the predetermined direction of the up and down direction (arrow A) in the center of the axis. It may be made of a curved pipe 112 bent in curvature.

In addition, a bypass outlet 108 may be formed on the upper surface of the main body 100 so that the right and the sewage may be discharged directly to the drain 10 without passing through the screen 200.

That is, in the case of rainwater, the initial rainwater is drained with the contaminants, but the sustained rainwater is a relatively clean water body since the contaminants are drained with the initial rainwater.

Therefore, since the initial flow rate is not much, the initial excellent water is recovered from the main body 100 through the screen 200 to the drainage path 10 again. May be recovered to the drain 10 directly through the bypass outlet 108 without passing through the screen 200. As a result, even when the main body 100 and the screen 200 are formed to have a purification capacity corresponding to the initial excellent, the main body 100 and the screen 200 can be fully functioned, and the main body 100 and the screen 200 can be miniaturized. The wear of the screen 200 may be delayed.

Furthermore, the bypass outlet 108 is positioned to correspond to the center of the rotational flow W so that the rotational flow W can be easily formed in the internal space 102 of the main body 100 and the main body 100 It may be made of a tubular structure protruding a predetermined length toward the inner space 102 of the).

In order for the inlet 104 and the outlet 106 formed at the side of the main body 100 to be directly connected to the drain 10, the main body 100 may be more advantageously installed side by side with the drain 10. . In addition, the upper and lower side of the drainage passage 10 is formed on the outer side of the main body portion 100, the bypass hole 12 is formed to bypass the right, filthy water, and the main body 100 on the other side of the drainage passage 10 In one case, a recovery port 14 through which wastewater is recovered may be formed. Here, the bypass port 12 of the drainage path 10 may be formed so that the right and the filth may be bypassed by one main body part 100, and the right and the filth may be divided into a plurality of the main body part 100 and bypassed. Can be formed.

On the other hand, the drainage passage 10 is installed in the drainage passage 10 so as to cross the drainage passage 10 so that the right and the sewage in the drainage passage 10 can bypass the main body portion 100 to block the flow of the right and the wastewater. The partition wall 20 may be provided.

In particular, when the water level in the drainage passage 10 is lower than the predetermined level, the partition wall 20 bypasses the right and the sewage to the main body 100, and when the water level in the drainage passage 10 is above the predetermined level, the right and the wastewater It may be formed so as to be drained along the drainage path 10 by overflowing the partition wall 20 without bypassing the main body portion 100. That is, the partition wall 20 is formed to protrude upward from the lower surface of the drainage passage 10 so as to block only the lower side drainage flow in the drainage passage 10, and the predetermined height 20H lower than the height 10H of the drainage passage 10. It can be formed as. Therefore, as described above, since the initial rainwater does not have a relatively large flow rate, the water level in the drainage passage 10 is low, thereby bypassing the main body portion 100, and the sustained rainwater bypasses the main body portion 100 because of the large flow rate. However, most of the water may flow over the partition wall 20 without bypassing the main body 100 and continue to be drained along the drainage path 10.

The partition wall 20 has a right and a sewage drainage direction in the drainage passage 10 and a side surface on which the bypass port 12 of the drainage passage 10 is formed in parallel with each other, so that the right and the sewage in the drainage passage 10 are drainage passages 10. It can be formed as follows to guide smoothly to the bypass port (12).

That is, the partition wall 20 has the right and the upstream side in the drainage path 10 in the drainage path 10 in the drainage path 10 with respect to the direction (arrow B) crossing the drainage path 10. Can be tilted along (arrow C). In addition, the front side inclined portion 20A of the partition wall 20 may be formed in a curved surface having a predetermined curvature so as to smoothly guide the flow of right and wrong sewage.

In this case, the front side inclined portion 20A of the partition wall 20 may be divided into two so that the right and the sewage may be split to both sides when the main body 100 is installed on both sides of the drainage passage 10. have. In addition, two front side inclined portions 20A of the partition wall 20 may be more advantageous in that the connection portion is formed in a curved surface, which can smoothly guide the drainage flow of right and wrong water without resistance.

Screen 200 may be made of a structure such as a wire mesh, in particular, because it can be continuously self-cleaning by the rotating water (W), as described above, the microfiber filter to filter out fine contaminants such as sludge, sludge, heavy metals, etc. It may be made of.

In addition, the screen 200 may be formed of a wedge wire screen 210 in which a plurality of wedge wires having a wedge-shaped cross section are arranged in an up and down direction (arrow A).

The wedge wire screen 210 is as shown in FIGS. 5 and 6.

The wedge wire screen 210 is configured by arranging a plurality of wedge wires 212 having a wedge-shaped cross section in parallel, and a minute slit 214 of about 10 μm to lmm is formed between each wedge wire 212. Can be formed.

Each wedge wire 212 may be fixed to the plurality of support rods 216 by spot welding or the like. In addition, each wedge wire 212 and the support rod 216 may be made of a corrosion-resistant metal material such as stainless steel. Each slit 214 formed in the wedge wire screen 210 prevents the passage of solids of about 10 μm to 1 mm, and passes only liquids containing solids smaller than the slit width.

The wedge wires 212 having a wedge shape in cross section are arranged in parallel with each other at predetermined intervals, and the surface of the head portion 212a may form part of the surface on the inflow chamber side. The axis S of the wedges extending in the vertical direction from the surface of the head 212a can be inclined on the downstream side in the swirl flow direction in the vertical direction (arrow A) shown by the arrow L. FIG. The angle α between the swirl flow direction L and the surface of the head 212a may be set to about 3 degrees to 8 degrees, and usually about 5 degrees. When the axis S of each wedge wire 212 is formed to be inclined in this manner, as shown in the drawing, the end portion 212b of the head portion 212a located on the upstream side of the swirl flow is located on the downstream side 212a. It may protrude in the inward direction of the inlet chamber 5 than the end (212c) of). As a result, the swirl flow impinges on the protruding end 212b of each wedge wire 212, and can be efficiently attracted to the slit 214 by a Coanda effect. Therefore, when the slit width is reduced to separate the micron-based solids, the aperture ratio of the screen 200 is very small. However, the permeability of the liquid is improved by the Coanda effect, thereby substantially increasing the aperture ratio of the screen 200. Can be exercised.

When it becomes possible to improve the permeability of liquid in this way, even if the slit space | interval is made extremely small in order to isolate | separate fine solid matter, a separation process capability can be maintained at a considerable level.

In addition, the screen 200 can be automatically cleaned by the rotational water flow (W) generated in the inner space 102 of the main body 100, as described above, the microfiber that can filter out very small pollution source Even if the filter is made of clogging can be prevented, the purification efficiency of the water body can be maximized.

Meanwhile, as another embodiment, as shown in FIG. 7 and FIG. 8, the present invention purifies the pre-treatment so that the right and the wastewater bypassing the main body 100 described above with reference to FIGS. 2 to 6 may be pretreated. The unit 1000 may further include. That is, the present invention filters the relatively large contaminants in the pretreatment purifier 1000, fine contaminants such as sludge, sludge, heavy metals, etc. in the body portion 100 and the screen 200 described above with reference to FIGS. Can be purged.

To this end, the pretreatment purifier 1000 is basically discharged from the pretreatment main body 1100 and the pretreatment main body 1100 installed between the drainage passage 10 and the main body 100 to the main body 100. Right, it may include a pre-treatment screen 1200 for filtering the sewage.

In particular, the pretreatment main body 1100 has an internal space 1102 in which the right and the sewage are bypassed and contaminants in the sewage are sedimented, and the right and the sewage from the drainage passage 10 on one side of the pretreatment main body 1100. The inlet 1104 is formed, and the outlet 1106 is formed on the other side of the pretreatment main body 1100 so that the inflow of the right and the inflow of the inlet 1104 may be discharged in a direction different from the inflow direction of the inlet 1104. The pretreatment screen 1200 may be installed at the outlet 1106 of the pretreatment main body 1100.

That is, rainwater and sewage may be purified first as the contaminant is precipitated in the pretreatment main body 1100, and the rainwater and sewage may be filtered by the pretreatment screen 1200. .

In particular, since the right and sewage inflow direction at the inlet 1104 of the pretreatment main body 1100 and the right and sewage discharge direction at the outlet 1106 are different, the right and sewage introduced into the pretreatment main body 1100 are different. Instead of being discharged through the outlet 1106 of the pretreatment main body 1100, it may be discharged after being sufficiently fresh in the internal space 1102 of the pretreatment main body 1100.

Therefore, the precipitation can be sufficiently performed in the internal space 1102 of the pretreatment main body portion 1100, and the filtration efficiency can be increased. In addition, since the right and the wastewater is discharged through the pretreatment screen 1200 after the first purification process by the precipitation as described above, the filtration treatment load on the pretreatment screen 1200 can be reduced, the pretreatment screen 1200 Can be used for a long time.

In addition, since the right and the wastewater inflow direction at the inlet 1104 of the pretreatment main body 1100 and the right and the wastewater discharge direction at the outlet 1106 are different, the internal space 1102 of the pretreatment main body 1100 is different. The pretreatment screen 1200 may be wiped by the water stream W1 to be formed, and thus, the pretreatment screen 1200 may be continuously cleaned, which may be advantageous in terms of maintenance and repair.

In addition, the contaminants may be collected in the internal space 1102 of the pretreatment main body 1100, and the contaminants may be prevented from being deposited in the drainage path 10, and the internal space 1102 of the pretreatment main body 1100. It can be easy to collect and sediment contaminants.

Further, the inlet 1104 of the pretreatment main body 1100 is formed so that right and sewage flows downward on the upper surface of the pretreatment main body 1100, and the outlet 1106 of the pretreatment main body 1100 is the pretreatment main body 1100. It may be characterized in that formed on the upper surface of the).

Therefore, the rotational water flow W1 centering on the up-down direction (arrow A) can be formed in the internal space 1102 of the pre-processing body portion 1100, and the pre-processing body portion 1100 is formed by the rotational water flow W1. The pre-treatment screen 1200 installed on the upper surface of the self-cleaning can be smoothly and continuously. In particular, when there is a large flow rate of rainwater and sewage and the flow rate is fast, such as during heavy rainfall, since the rotational water flow (W1) can be sufficiently formed in the internal space 1102 of the pretreatment main body portion 1100 by rapid flow, the pretreatment main body Self-cleaning of the pretreatment screen 1200 due to the rotating water flow W1 formed in the inner space 1102 of the unit 1100 is no problem.

Here, the inlet 1104 of the pretreatment main body 1100 is configured to guide the right and the effluent flowing down to the bottom of the pretreatment main body 1100 in order to easily form the rotational water flow W1. It may protrude a predetermined length downward into the inner space 1102 of the.

In addition, the internal space 1102 of the pretreatment main body 1100 has a circular structure such that the right and the filth can be rotated about the up and down direction (arrow A) so that the above-mentioned rotational water flow W1 can be sufficiently formed. It may be more desirable. In addition, a spiral may be formed on an inner wall of the pretreatment main body 1100 so that an upward rotation flow may be formed. Therefore, since the rotation of the water flow can be guided by the helix, the rotation water flow W1 can be more sufficiently formed.

Alternatively, a guide member 1110 may be provided in the internal space 1102 of the pretreatment main body 1100 to guide the right and the sewage to be rotated about the up and down direction (arrow A). The guide member 1110 may be any one as long as the guide member 1110 can guide the rotational water flow W1. In particular, one end of the guide member 1110 passes through the inlet 1104 of the pretreatment main body 1100 so that the sewage may pass through the pretreatment main body (1). 1100 is connected to the inlet 1104, at least the other end to discharge the right and the sewage to the internal space 1102 of the pre-processing body portion 1100 curved bent in a predetermined curvature in the vertical direction (arrow A) in the axial center Can be made.

The upper surface of the pretreatment main body unit 1100 is connected to the internal space 1102 of the pretreatment main body unit 1100 so that right and sewage may be discharged directly to the drain 10 without passing through the pretreatment screen 1200. Bypass outlet 1108 protruding above the portion 1100 may be formed.

On the other hand, the pretreatment purification unit 1000 has the above-described pretreatment main body unit 1100 installed therein to discharge rainwater and sewage from the pretreatment main body unit 1100. The apparatus may further include a chamber 1300 connected to the main body 100 to be introduced into the main body 100 described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10; Drainage 20; septum
100; Main body 102; Inner space
104; Inlet 106; outlet
108; Bypass outlet 110; The guide member
112; Curve 200; screen
1000; A pretreatment purifier 1100; Pretreatment Body
1200; Pretreatment screen

Claims (10)

The screen 200 for filtering the right and the sewage, which is connected to the drainage passage 10 through which the right and the sewage drains, and the right and the sewage of the drainage passage 10, and the right and the sewage that bypasses the main body portion 100. );
The main body part 100 has an inlet 104 through which the right and the waste water flows from the drainage passage 10 on one side of the upper and lower surfaces thereof so that the rotational water flow W may be formed, and the other side of the side surface. A discharge port 106 through which the right and the sewage is discharged from the main body part 100 to the drainage path 10 is formed, and a side surface of the inner space 102 is curved along the circumferential direction;
The screen 200 is installed in the outlet 106 of the main body portion 100,
Pre-treatment main body portion 1100 installed between the drainage passage 10 and the main body portion 100 so that the right and wrong circumference from the drainage passage 10 to the main body portion 100 may be pretreated. And a pretreatment screen 1200 for filtering the right and the waste water discharged from the unit 1100 to the main body unit 100;
The pretreatment main body 1100 has an internal space 102 in which the right and the filthy water are freshwater and the contaminants in the right and the sewage are precipitated, and the drainage passage 10 is disposed on one side of the pretreatment main body 1100. The right and the inlet 104 is introduced into the sewage, the discharge port 106 is discharged to the right, the waste water is formed on the upper surface of the pre-treatment main body portion 1100, the outlet 106 of the pre-treatment main body portion 1100 Drain system, characterized in that the pre-treatment screen (1200) is installed. The method according to claim 1,
Inlet 104 of the main body portion 100 is the drainage system, characterized in that formed in the tangential direction of the inner space 102 of the circular structure so that the right, sewage can be introduced. Rotating water flow (W) is connected to the drainage passage 10 through which the right and the wastewater are drained, and the main body 100 to bypass the right and the wastewater of the drainage passage 10, and the internal space 102 of the body portion 100. A guide member (110) for guiding the right and the sewage so as to be generated, and a screen (200) for filtering the right and the sewage to bypass the main body (100);
The main body 100 has an inlet 104 through which the right and the sewage flows from the drainage passage 10 on one side of the upper and lower surfaces thereof, and the drainage passage 10 from the main body 100 on the other side of the side. Discharge port 106 is formed to discharge the right, sewage, the screen 200 is installed in the discharge port 106 of the main body portion 100,
Pre-treatment main body portion 1100 installed between the drainage passage 10 and the main body portion 100 so that the right and wrong circumference from the drainage passage 10 to the main body portion 100 may be pretreated. And a pretreatment screen 1200 for filtering the right and the waste water discharged from the unit 1100 to the main body unit 100;
The pretreatment main body 1100 has an internal space 102 in which the right and the filthy water are freshwater and the contaminants in the right and the sewage are precipitated, and the drainage passage 10 is disposed on one side of the pretreatment main body 1100. The right and the inlet 104 is introduced into the sewage, the discharge port 106 is discharged to the right, the waste water is formed on the upper surface of the pre-treatment main body portion 1100, the outlet 106 of the pre-treatment main body portion 1100 Drain system, characterized in that the pre-treatment screen (1200) is installed. The method according to claim 3,
The guide member 110 is a drainage system, characterized in that made of a curved pipe connected to the inlet 104 of the body portion (100). The method according to any one of claims 1 to 4,
The main body 100 is installed in parallel with the drainage passage 10, and the bypass hole 12 bypassing the right and the wastewater to the main body portion 100 on one side of the upper and lower surfaces of the drainage passage 10. It is formed, the drainage system, characterized in that the right side of the drainage path (10) bypassing the main body portion (100), the recovery port (14) for collecting waste water is formed. The method according to any one of claims 1 to 4,
The bypass outlet is opened on the upper surface of the main body 100 so that the right and the filth can be discharged from the main body 100 to the drain passage 10 of the main body 100 to be discharged to the drainage passage 10. Drainage system characterized in that the (108) is formed. The method according to any one of claims 1 to 4,
The screen 200 is a drainage system, characterized in that made of a microfiber filter. The method according to any one of claims 1 to 4,
When the water level in the drainage passage 10 is lower than the predetermined water level in the drainage passage 10, the right and the wastewater in the drainage passage 10 bypass the main body part 100, and the water level in the drainage passage 10 is the predetermined water level. If it is abnormal, the drainage system, characterized in that the partition wall 20 is provided so that the right, the sewage in the drainage path (10) can be drained along the drainage path without being bypassed to the main body (100). The method according to claim 8,
The partition wall 20 has a right upstream side along the right and the excellent drainage direction in the drainage passage 10 along the right and the wastewater drainage direction in the drainage passage 10 with respect to a direction crossing the drainage passage 10. A drainage system characterized by inclined surfaces. delete

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