KR20210092514A - Undercurrent system for redution of flooding - Google Patents

Abstract

The present invention is to provide a storage system for reducing flooding that can prevent backflow by storing using a gutter without power. According to the present invention, provided is a storage system for reducing flooding, which comprises: a rain gutter (10) communicating in the first direction with respect to a rain water drain pipe (W); and a storage tank (20) for storing rainwater by communicating in the second direction with respect to the rain gutter (10) when the rainwater accommodated in the rain gutter (10) is above a predetermined water level.

Description

Undercurrent system for redution of flooding

The present invention relates to a storage system for reducing flooding, and more particularly, to a storage system for reducing flooding that can prevent backflow from a drainage channel during rainfall through sequential storage and storage for rainwater drainage using non-powered power.

As urbanization progresses rapidly in recent years, the impervious area where the surface of the land is covered with asphalt or concrete is rapidly increasing. This increase in impervious area blocks the inflow of rainwater into the ground, causing the depletion of groundwater and distortion of the water circulation system. . In addition, the problem of environmental pollution is also serious because pollutants that are mixed with the rainwater and run out are discharged into the river together with the rainwater during rainfall.

In order to solve this problem, Korean Patent Registration No. 1639379, Korean Patent Publication No. 2012-0006715, and Korean Patent Registration No. 1322622, etc. propose various technologies.

Among them, the prior patent 1 is a technology presented to solve the inefficiency problem with respect to the installation of road structures or the inefficiency problem with respect to the removal of pollutants of the existing prior patents 2 and 3, but the prior patents are for the removal of pollutants. The efficiency of removing pollutants is not high because a filter medium is installed in the air filter and used to remove pollutants. In addition, the structure according to the prior patent 1 has a large problem in that there is a great possibility that a sinkhole may occur due to subsidence of the ground on the road side because rainwater is stored in the infiltration reservoir and penetrates underground.

Accordingly, as shown in FIG. 1 as a method to solve the problem of the prior patent, Patent No. 10-1923707 discloses a road boundary stone in which an opening through which rainwater flowing through the upper surface of the road is introduced is formed on one side; a branch valve for inducing the rainwater introduced through the opening to any one of a sewage pipe, a planting soil of a drinking fountain, and a rainwater pipe; and the branch valve guides the rainwater to the sewage pipe when it is initially raining, the branch valve guides the rainwater to the planting soil after a first time elapses, and the branch valve directs the rainwater to the rainwater pipe after a second time elapses Including; a control unit for controlling the induction; and, the branch valve includes an inlet connected to the inlet pipe at the upper portion, and a first oil pipe connected to the first guide pipe, the second guide pipe, and the third guide pipe along the outer peripheral surface of the side, respectively. It has a tool, a second guide port, and a third guide port, wherein the inlet pipe is a pipe for forming a flow path for the rainwater to the branch valve, and the first guide pipe provides a flow path from the first guide pipe to the sewage pipe. and the second guide pipe is a pipe for forming a flow path from the second guide port to the planting soil, and the third guide pipe is a pipe line for forming a flow path from the third guide hole to the rainwater pipe. wherein the branch valve further includes a blocking means for blocking two of the first to third induction ports by a driving device, and the drain pipe coupled to communicate with the inlet pipe has the branch valve disposed on the upper part of the drain pipe However, it discloses a technique in which the rainwater leaked from the inlet pipe and/or the branch valve is discharged to the lower part, and aggregate is stacked inside the lower part of the drain pipe.

However, even with this technology, it is not possible to prevent backflow according to the height of the strata, and accordingly, there is a problem in that a backflow is generated to the outlet, and there is a problem in that power must be used.

Therefore, the development of a technology capable of solving these problems is required.

Accordingly, it is an object of the present invention to provide a storage system for reducing flooding that can prevent backflow by storing using a gutter without power.

According to the present invention, the rain gutter (10) communicating in the first direction with respect to the storm drain pipe (W) and; When the rainwater received in the rain gutter 10 is above a certain water level, a storage system for reducing flooding is provided, which is communicated in the second direction with respect to the rain gutter 10 and consists of a storage tank 20 for storing rain water.

Here, the rain gutter 10 is a housing 12 communicating with a connection pipe W1 communicating with the storm drain pipe W on one side, and one side of the rain gutter 10 on the inside of the housing 12 and A first opening/closing valve 14 that communicates with and can be opened and closed by water pressure inside and outside the housing 12, and a second opening/closing valve provided higher than the height of the first opening/closing valve 14 to communicate with the storage tank 20 and openable ( 16) is preferred.

In addition, the first opening/closing valve 14 and the second opening/closing valve 16 of the rain gutter 10 are opened by the water pressure of the rainwater stored in the rainwater temporary storage space S provided inside the rain gutter 10 . It is preferable to be

In addition, the first opening/closing valve 14 is provided with a first hinge 14a so as to be closed by water pressure generated when rainwater flowing into the rainwater drain pipe W is introduced into the housing 12, and the second opening/closing valve 14 is provided. It is preferable that the valve 16 is provided with a second hinge 16a to be opened by the water pressure located on the upper side in the rainwater temporary storage space S of the rain gutter 10 .

In addition, the rain gutter 10 passes through the front and rear of the rain gutter 10 when rainwater flows into the storage tank 20 by opening the second opening/closing valve 16 so that the rainwater is stored in the storage tank 20 . It is preferable that the rainwater through-hole 18 for the rain gutter is provided at the lower part of the rain gutter 10 .

In addition, it is preferable to have an independent storage space for each unit area of the rain gutter 10 .

In addition, the storage tank 20 is buried in the ground at an inclined slope, and on one side of the low slope position of the storage tank 20, the housing 24 communicates with the connection pipe W2 that communicates with the storm drain pipe W. , and a third opening/closing valve 26 communicating with one side of the storage tank 20 inside the housing 24 and capable of opening and closing the housing 24 by water pressure inside and outside the housing 24 .

In addition, it is preferable that the third opening/closing valve 26 is provided with a first hinge 26a so that it is closed by water pressure generated when rainwater flowing into the rainwater drain pipe W is introduced into the housing 24 .

Therefore, according to the present invention, it is possible to prevent backflow by storing the water using the side port without power.

1 is a schematic schematic diagram according to Patent No. 10-1923707;
2 is a schematic perspective view of a storage system for reducing flooding according to a preferred embodiment of the present invention.
3 is a schematic perspective view illustrating an operation process of a storage system for reducing flooding according to a preferred embodiment of the present invention.

Hereinafter, a storage system for reducing flooding according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic perspective view of a storage system for reducing flooding according to a preferred embodiment of the present invention, and FIG. 3 is a schematic perspective view showing an operation process of a storage system for reducing flooding according to a preferred embodiment of the present invention.

2 to 3, according to the storage system for reducing flooding according to a preferred embodiment of the present invention, the rain gutter communicates in the first direction with respect to the rainwater drainage pipe (W) buried in the center of the road. (10) and a storage tank 20 for storing rainwater by communicating in the second direction with respect to the rain gutter 10 when the rainwater accommodated in the rain gutter 10 is above a certain water level.

The rain gutter 10 is provided on the upper surface with gratings for receiving rainwater on both sides of the road, and one side of the housing 12 communicates with the connection pipe W1 that communicates with the storm drain pipe W, the housing 12 ) communicated with one side of the rain gutter 10 on the inside of the first opening/closing valve 14 that can be opened and closed by water pressure inside and outside the housing 12, and the first opening/closing valve 14 is provided higher than the height of the storage tank It communicates with (20) and includes a second opening/closing valve (16) that can be opened.

The first opening/closing valve 14 and the second opening/closing valve 16 of the rain gutter 10 are opened by the water pressure of the rainwater stored in the rainwater temporary storage space S provided inside the rain gutter 10 . The first opening/closing valve 14 is provided with a first hinge 14a so as to be closed by water pressure generated when rainwater flowing into the rainwater drain pipe W is introduced into the housing 12 . On the other hand, the second opening/closing valve 16 is provided with a second hinge 16a to be opened by the water pressure located on the upper side in the rainwater temporary storage space (S) of the rain gutter (10).

In addition, the rain gutter 10 passes through the front and rear of the rain gutter 10 when rainwater flows into the storage tank 20 by opening the second opening/closing valve 16 so that the rainwater is stored in the storage tank 20 . A rainwater through-hole 18 is provided at the lower portion of the rain gutter 10 for

The reservoir 20 communicates in the second direction with respect to the rain gutter 10 when the rainwater received in the rain gutter 10 is above a certain water level, and a storage space for storing rain water is provided at the lower part of the road, and the rain gutter ( Each unit area of 10) has an independent storage space. That is, both sides of the storage tank 20 are provided with separation walls 22 in which the stored rainwater is separated from the adjacent storage tanks. On the other hand, the storage tank 20 is buried in the ground at an inclined slope, and on one side of the low slope position of the storage tank 20, the housing 24 communicates with the connection pipe W2 that communicates with the storm drain pipe W. , and a third opening/closing valve 26 communicating with one side of the storage tank 20 inside the housing 24 and capable of opening and closing the housing 24 by water pressure inside and outside the housing 24 .

The third opening/closing valve 26 of the storage tank 20 is opened by the water pressure of the rainwater stored in the storage tank 20 . The third opening/closing valve 26 is provided with a first hinge 26a so as to be closed by water pressure generated when rainwater flowing into the rainwater drain pipe W is introduced into the housing 24 .

As shown in Figure 3a, when rainwater (WW) is flowing with a certain free space in the rainwater drain pipe (W), it is temporarily introduced into the rainwater temporary storage space (S) of the rain gutter (10) and stored By opening the first opening/closing valve 14 provided in the housing 12 by the water pressure of the rainwater WX, the stored rainwater WX flows into the stormwater drain pipe W through the connection pipe W1. do.

Thereafter, as shown in FIG. 3b, the rainwater (WW) inside the housing 12 of the rain gutter 10 to such an extent that the rainwater (WW) starts to flow back through the connection pipe (W1) in the rainwater drainage pipe (W). When the water level is high, that is, when the water level is higher than the height of the first on-off valve 14 , the first on-off valve 14 is closed by the water pressure of the rainwater WW flowing into the housing 12 .

Then, when the rainwater (WW) in the rainwater drain pipe (W) becomes a high water level inside the housing 12 of the rain gutter 10 to such an extent that the rainwater (WW) starts to flow back through the connection pipe (W1), the storage tank 20 ), the third on-off valve 26 is closed by the water pressure of the rainwater (WW) flowing into the housing 24.

On the other hand, in a state in which the first opening/closing valve 14 of the rain gutter 10 is closed, the rainwater WX continuously flowing into the temporary storage space S of the rain gutter 10 is discharged by the second opening/closing valve by its own water pressure. (16) is opened, and accordingly, rainwater (WX) continuously flowing into the temporary storage space (S) of the rain gutter (10) is introduced into the storage tank (20) through the second opening/closing valve (16) and is stored. .

Thereafter, as shown in FIG. 3c , when the water level of the rainwater drain pipe W is lowered and the rainwater WW is flowing with a certain free space in the stormwater drain pipe W, the water level is temporarily stored in the storage tank 20 . By opening the third on-off valve 26 provided in the housing 24) by the water pressure of the inflow and stored rainwater WY to the outside, the stored rainwater WY passes through the connection pipe W2 to the stormwater drain pipe ( W) flows into

On the other hand, in the above description, the storage tank 20 is provided with dividing walls 22 at both ends thereof, and at this time, by being provided separately for each unit area of the rain gutter 10, even when the road topography is continuously inclined By being stored in the storage tank 20 for each compartment, it is possible to prevent backflow through the rain gutter 10 as well as prevent backflow even in sudden heavy rain.

10: rain gutter
12: housing
14: first on-off valve
16: second on-off valve
18: rainwater through hole
20: reservoir
22: dividing wall
24: housing
26: third on-off valve

Claims (8)

a rain gutter (10) communicating in the first direction with respect to the storm drain pipe (W);
When the rainwater received in the rain gutter 10 is above a certain water level, it communicates with the rain gutter 10 in the second direction and comprises a storage tank 20 for storing rainwater. According to claim 1, wherein the rain gutter 10 is a housing 12 communicating with a connection pipe (W1) communicating with the storm drain pipe (W) on one side, the rain gutter (10) on the inside of the housing 12 The first opening/closing valve 14 that communicates with one side of the housing 12 and that can be opened and closed by water pressure inside and outside the housing 12, and the first opening/closing valve 14 are provided higher than the height of the first opening/closing valve 14 to communicate with the storage tank 20 and open 2 A storage system for reducing flooding, characterized in that it includes an on/off valve (16). According to claim 2, wherein the first on-off valve 14 and the second on-off valve 16 of the rain gutter 10 are the rainwater stored in the rainwater temporary storage space (S) provided inside the rain gutter (10). A storage system for reducing flooding, characterized in that it is opened by water pressure. The method of claim 3, wherein the first opening/closing valve 14 is provided with a first hinge 14a so that it is closed by water pressure generated when rainwater flowing into the rainwater drain pipe W is introduced into the housing 12, and , the second on/off valve 16 is provided with a second hinge 16a to be opened by the water pressure located on the upper side in the rainwater temporary storage space (S) of the rain gutter (10). storage system for The method according to any one of claims 1 to 4, wherein the rain gutter (10) moves before and after the rain gutter (10) when rainwater flows into the storage tank (20) by opening the second on/off valve (16). A storage system for reducing flooding, characterized in that a rainwater through-hole (18) for penetrating and storing rainwater in the storage tank (20) is provided in the lower portion of the rain gutter (10). The storage system for reducing flooding according to claim 5, wherein each unit area of the rain gutter (10) has an independent storage space. According to claim 6, wherein the storage tank 20 is buried in the ground at an inclined slope, one side of the low inclined surface of the storage tank 20 communicates with a connection pipe (W2) that communicates with the storm drain pipe (W) Submersion, characterized in that it includes a housing 24, and a third on-off valve 26 inside the housing 24, which communicates with one side of the storage tank 20, and can be opened and closed by water pressure inside and outside the housing 24. Storage system for abatement. 8. The method of claim 7, wherein the third on-off valve 26 is provided with a first hinge 26a so that it is closed by water pressure generated when rainwater flowing into the rainwater drain pipe W is introduced into the housing 24. A storage system for reducing flooding, characterized in that.

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