KR20220138502A - Rainwater treatment system using vegetation and soil filtration - Google Patents

Abstract

The present invention relates to a rainwater management system using vegetation and soil filtration, and more specifically, comprises: a rainwater introducing part for introducing rainwater falling on a road; a filtering flower bed part for filtering the rainwater introduced through the rainwater introducing part; a penetration part for allowing part of the rainwater filtered by the filtering flower bed part to penetrate into the surrounding water-permeable ground; and a drainage part for draining part of the rainwater filtered by the filtering flower bed part into a rainwater pipe. According to the present invention as described above, rainwater falling on a road is collected, filtered with plants, and allowed to penetrate into the water-permeable ground, thereby creating a vegetation environment around the road, preventing and minimizing ground pollution, and quickly draining rainwater into a rainwater pipe if precipitation is much, to prevent flooding.

Description

Rainwater treatment system using vegetation and soil filtration

The present invention relates to a rainwater management system, and more specifically, it purifies collected rainwater using vegetation and soil filtration, and infiltrates the purified rainwater into the permeable ground around the system as well as the lower part of the system to reduce the infiltration amount of rainwater. It relates to a stormwater management system using vegetation and soil filtration that can restore water circulation and prevent flooding through purification and infiltration of rainwater by discharging it to the sewer when the amount of rainwater increases.

In general, as the impervious surface is increased by pavement, etc. in cities, sewage facilities including rain gutters and conduits for draining rainwater are being installed.

However, these sewage facilities have a problem in that the amount of rainwater infiltrating into the soil is extremely small as they are directly drained into a river or the sea without a configuration for infiltrating the rainwater into the soil.

In particular, during the rainy season in summer, rainwater cannot be fully accommodated in the rain gutter due to heavy rain, and a puddle is formed, making it impossible for both people and vehicles to pass.

In addition, there is a problem in that the sewer cover or the catchment cover is damaged by the backflowing rainwater due to the rapid increase in the amount of drainage, or the cover swells up due to water pressure, causing secondary damage.

In order to overcome this, as disclosed in the conventional registered utility model 20-0467111, when water flows in, as well as when there is a large amount of drainage, a device that can easily reverse flow is used.

However, such a device is not a fundamental solution for drainage, has absolutely nothing to do with drainage efficiency, and has a problem in that the ability to infiltrate rainwater into the soil is also degraded.

On the other hand, recently, by forming green areas around roads to increase the amount of rainwater penetrating into the ground, the conventional problems are solved and a green environment is provided.

However, if rainwater falling on the road is not discharged quickly, flooding will still occur. Development of a technology that can effectively store the collected rainwater so that it is quickly drained from the road and effectively infiltrate into the soil to maintain the surrounding green environment This is an urgent need.

Accordingly, the present invention has been devised to solve the above problems, and includes a rainwater inlet for collecting rainwater falling on the road, a filtering end for filtering the rainwater flowing through the rainwater inlet, and the filtering end Including a penetration part for infiltrating some of the filtered rainwater from the surrounding greenery into the ground, and a drainage part for draining some of the rainwater filtered from the filter flower end into a rainwater pipe, By penetrating into the ground after filtration, it not only creates a vegetation environment around the road, but also prevents and minimizes underground pollution, and when there is a lot of precipitation, the vegetation and soil that can prevent flooding by quickly draining it into a rainwater pipe It is an object to provide a rainwater treatment system using filtration.

The present invention for achieving the above object is a rainwater inlet that flows into the road to collect rainwater, a filter end for filtering the rainwater flowing through the rainwater inlet, and some of the rainwater filtered at the filter end around the It includes a penetration part for infiltrating into the ground of the green area, and a drainage part for draining some of the rainwater filtered at the end of the filter into a rainwater pipe.

Preferably, the rainwater inlet includes a rainwater inlet formed in the road boundary stone, and an inlet slope formed to be inclined so that rainwater from the road flows into the rainwater inlet.

And it further includes an inlet grating that is detachably provided at the rainwater inlet to filter foreign substances contained in rainwater.

In addition, the filter flower end includes a flower bed body part having a filtration space part open upwardly therein, and a filtration part provided in the filtration space part of the flower bed body part for filtering the flowing water. .

And the filtration unit, a first filtration unit for storing the rainwater introduced by the rainwater inlet to remove sediment, and a plurality of second filtration units for filtering the rainwater that has passed through the first filtration unit by the planted plants , including

In addition, the first filtration unit and the plurality of second filtration units are arranged in series.

And the first filtering unit, the first vegetation soil layer formed on the bottom, and a mulching layer laminated on the upper side of the first vegetation soil layer, it includes.

In addition, the second filtration unit includes a second vegetation soil layer for planting plants.

In addition, the flower bed body portion includes a plurality of posts arranged at the corners of the first and second filters, a plurality of panels provided between the adjacent posts to partition each filter, and a corresponding post for each panel. It includes a flower bed connection part for connecting to.

And the panel, a first panel for forming the outer periphery of the filtration space, a second panel for partitioning the first filtration unit and the second filtration unit, a third panel for dividing each of the second filtration units, and the It includes a bottom panel for forming the bottom surface of the filtering space.

In addition, the first panel and the second panel are formed at the same height, the first panel has a first outlet hole formed at the lower end to penetrate the rainwater flowing into the first filter unit into the surrounding ground, and the second panel is at the upper end A second outlet hole is formed so that rainwater filtered by the first filter unit is supplied to the second filter unit, and the third panel is formed lower than the first panel, and a plurality of third outlet holes are formed and absorbed into the second vegetation soil layer. Rainwater is supplied to another adjacent second vegetation soil layer.

In addition, the first outlet hole has a trapezoidal shape in which the length of the lower side is longer than the length of the upper side, and the second outlet hole has a trapezoidal shape in which the length of the upper side is longer than the length of the lower side.

In addition, the third outlet hole has the same width and has a slit shape elongated in the left and right directions.

And the third panel further includes a baffle for covering the front side of the rainwater inflow direction of the third outlet hole to prevent the vegetation soil from being introduced together.

In addition, it further includes a flower bed penetration unit for infiltrating the rainwater of the filtration space into the ground.

And the flower bed penetration part, a bottom penetration hole formed in the bottom panel so that rainwater from the filtering space is discharged to the lower side, and crushed stone aggregate formed on the lower side of the bottom panel so that the rainwater discharged through the bottom penetration hole penetrates quickly into the ground layer, including

In addition, the flower bed connection portion is a plurality of connection grooves formed on the outer surface of the post, the panel is fitted.

And the infiltration part includes a penetration pipe having a plurality of penetration holes at the other end, one end protruding from the vegetation soil layer of the filter flower end, and the other end being located underground.

In addition, the drainage part includes a drainage pipe, one end of which is formed to protrude from the vegetation soil layer of the filter flower end, and the other end is connected to a rainwater pipe.

And one end of the drain pipe is formed higher than one end of the infiltration pipe.

In addition, rainwater flowing into the first filtration unit is filtered, some of it is absorbed into the first vegetation soil layer and penetrates into the ground through the first outlet hole, and the remainder is filtered through the second outlet hole when the water level is above a certain level. Some of the rainwater supplied to the second filtration unit is absorbed into the second vegetation soil layer and is supplied to the other second vegetation soil layer adjacent to the third outflow hole, and at the same time infiltrates into the ground through the first outflow hole, and the rest is absorbed at a certain water level In the case of abnormality, it penetrates into the ground of surrounding greenery through the penetration part, and when the water level of the second filter part is higher than one end of the penetration part, it is discharged into the rainwater pipe by the drainage part and overflows from the filter flower end is prevented.

As described above, the present invention relates to a rainwater management system, and more particularly, it purifies collected rainwater using vegetation and soil filtration, and infiltrates the purified rainwater into the permeable ground of the surrounding as well as the lower part of the present system. This is a very useful and effective invention that can increase the amount of rainwater infiltration and, when the amount of rainwater increases, discharge it into the sewer to restore water circulation and prevent flooding through purification and infiltration of rainwater.

1 is a view showing a rainwater treatment system using vegetation and soil filtration according to the present invention,
2 is a view showing a rainwater inlet according to the present invention,
3 is a view showing the end of the filter according to the present invention,
4 is a plan view of a flower bed body according to the present invention;
5 is a view showing a penetration part and a drain part according to the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The detailed description set forth below in conjunction with the appended drawings is intended to describe exemplary embodiments of the present invention and is not intended to represent the only embodiments in which the present invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, one of ordinary skill in the art to which the present invention pertains will recognize that the present invention may be practiced without these specific details.

In some cases, well-known structures and devices may be omitted or shown in block diagram form focusing on core functions of each structure and device in order to avoid obscuring the concept of the present invention.

Throughout the specification, when a part is said to "comprising or including" a certain component, it does not exclude other components unless otherwise stated, meaning that other components may be further included. do. In addition, the term “…unit” described in the specification means a unit that processes at least one function or operation. Also, "a or an", "one", "the" and like related terms are used differently herein in the context of describing the invention (especially in the context of the following claims). Unless indicated or clearly contradicted by context, it may be used in a sense including both the singular and the plural.

In describing the embodiments of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

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

1 is a view showing a rainwater treatment system for roadside greenery according to the present invention, FIG. 2 is a view showing a rainwater inlet according to the present invention, and FIG. 3 is a view showing a filter end according to the present invention, 4 is a plan view of a flower bed body according to the present invention, and FIG. 5 is a view showing a penetration part and a drainage part according to the present invention.

As shown in the figure, the rainwater treatment system for roadside greenery includes a rainwater inlet 100 , a filter end 200 , an infiltration unit 300 , and a drainage unit 400 .

The rainwater inflow part 100 flows in so that rainwater falling on the road 1 is collected, and is formed in plurality at regular intervals along the road.

And the filtration end 200 is provided to filter the rainwater introduced through the rainwater inlet (100).

The infiltration unit 300 is provided to infiltrate some of the rainwater filtered by the filter flower end 200 into the ground of the surrounding green area.

In addition, the drainage unit 400 is for draining some of the rainwater filtered by the filter flower end 200 into the rainwater pipe.

According to this rainwater treatment system for roadside greenery, rainwater falling on the road is collected and drained to prevent road flooding, and the collected rainwater is filtered through the filter end 200 for a certain period of time and penetrates into the surrounding area. It is possible to maintain the moisture content of the ground.

In particular, as the collected rainwater is filtered by the filtration end 200, contamination can be prevented and minimized even if it penetrates into the ground.

Accordingly, it is possible to prevent flooding of the road, create green areas around the road, and minimize pollution caused by rain.

For this purpose, the rainwater inlet 100 includes a rainwater inlet 110 and an inlet gradient 120 as shown in FIG. 2 .

The rainwater inlet 110 is formed on the boundary stone 2 of the road 1, and in some cases, may be formed on the shoulder 2 of the road.

And the inlet slope 120 is inclined so that rainwater from the road 1 flows into the rainwater inlet 110 .

This inlet slope 120 corresponds to the shoulder portion of the road 1, and it is natural to be inclined in the circumferential direction with the storm water inlet 110 as the center.

Here, the rainwater inlet 100 further includes an inlet grating 130 .

The inflow grating 130 is detachably provided at the rainwater inlet 110 to filter foreign substances contained in rainwater to prevent foreign substances from flowing in.

And as shown in FIG. 3 , the filtering end 200 includes a flower bed body 210 and a filtering unit 220 .

The flower bed body 210 has a filtration space 202 that is opened upwardly therein, and is installed underground.

In addition, the filtration unit 220 is provided in the filtration space 202 of the flower bed body 210 to filter the flowing water.

The filter unit 220 includes a first filter unit 222 and a second filter unit 224 .

The first filtration unit 222 stores rainwater introduced by the rainwater inlet unit 100 to remove sediment.

And at least one second filtration unit 224 filters rainwater that has passed through the first filtration unit 222 by the planted plants.

Here, the filtration space 202 includes a first filtration space 202a in which the first filtration 222 is provided and a second filtration space 202b in which the second filtration 224 is provided.

The first filter unit 222 and the second filter unit 224 are arranged in series, and are preferably formed along the road 1, and in some cases, orthogonal to the road 1 or formed at a certain angle. It is natural to be able

For this, the first filtering unit 222 includes a first vegetation soil layer 2222 and a mulching layer 2224 .

The first vegetation layer 2222 is formed on the lower surface of the first filtration space portion 202a, and the mulching layer 2224 is laminated on the upper side of the first vegetation layer 2222 to plant the first vegetation layer 2222. prevent it from growing

And the second filtration unit 224 includes a second vegetation soil layer 2242 for planting plants.

Here, the height of the second vegetation soil layer 2242 is formed to be the same as or different from the heights of the first vegetation soil layer 2222 and the mulching layer 2224 .

Accordingly, the water level of the first filtration space portion 202a and the second filtration space portion 202b is maintained at the same level.

And as shown in FIG. 4 , the flower bed body 210 includes a post 212 , a panel 214 , and a flower bed connection unit 216 .

A plurality of posts 212 are installed so as to be positioned at the corners of the first filter unit 222 and each second filter unit 224 .

In addition, the panel 214 is provided between the adjacent posts 212, respectively, to partition each filter unit (222, 224) is provided in plurality.

The flower bed connection part 216 is provided to connect each panel 214 to the corresponding post.

The panel 214 includes a first panel 2142 , a second panel 2144 , a third panel 2146 , and a bottom panel 2148 .

The first panel 2142 is provided to form the periphery of the filtering space 202 .

And the second panel 2144 is provided to partition the first filtering unit 222 and the second filtering unit (224).

The third panel 2146 is provided to partition each second filtering unit 224 .

In addition, the bottom panel 2148 is provided to form the bottom surface of the filtering space (202).

Here, the first panel 2142 and the second panel 2144 are formed at the same height, and the first panel 2142 has a first outlet hole 2142a formed at the lower end thereof and flows into the first filter unit 222 . rainwater infiltrates into the surrounding ground.

In addition, the second panel 2144 has a second outlet hole 2144a formed at an upper end thereof, so that rainwater filtered by the first filtering unit 222 is supplied to the second filtering unit 224 .

The third panel 2146 is formed lower than the first panel 2142, and a plurality of third outlet holes 2146a are formed to supply rainwater absorbed in the second vegetation soil layer 2242 to another adjacent second vegetation soil layer. do.

The third panel 2146 is formed to be equal to or higher than the height of the second vegetation soil layer 2242 to prevent the vegetation soil of the second vegetation soil layer from passing to another second vegetation soil layer.

In addition, the first outlet hole 2142a has a trapezoidal shape in which the length of the lower side is longer than the length of the upper side, and the second outlet hole 2144a has a trapezoid shape in which the length of the upper side is longer than the length of the lower side.

The third outlet hole 2146a has a slit shape elongated in the left and right directions with the same width.

And the third panel 2146 is further provided with a baffle 2147 for covering the front side of the third outlet hole 2146a in the rainwater inflow direction.

When rainwater is moved to the adjacent second vegetation soil layer by the baffle 2147, the vegetation soil is prevented from flowing together.

In addition, the filter flower end 200 further includes a flower bed penetration unit 230 .

This flower bed penetration part 230 is provided to penetrate the rainwater of the filtering space part 202 into the ground.

The flower bed penetration 230 includes a bottom penetration hole 232 and a crushed stone aggregate layer 234 .

The bottom penetration hole 232 is formed in the bottom panel 2148 so that the rainwater of the filtering space 202 is discharged to the lower side.

And the crushed stone aggregate layer 234 is formed on the lower side of the bottom panel 2148 so that rainwater discharged through the bottom penetration hole 232 rapidly penetrates into the ground.

Accordingly, rainwater flowing into the first vegetation soil layer 2222 and the second vegetation soil layer 2242 can be penetrated into the lower ground.

In addition, the flower bed connection portion 216 is fitted with a plurality of connection grooves 2162 formed on the outer surface of the post 212, and the corresponding panel is inserted.

And as shown in FIG. 5 , the penetration part 300 includes a penetration pipe 310 , and a plurality of penetration holes 312 are formed at the other end of the penetration pipe 310 .

One end of the infiltration pipe 310 is formed to protrude from the vegetation soil layer of the filter flower end 200, and the other end is provided to be located in the surrounding green ground.

In other words, when the water level of the filtering end 200 is above a certain water level, it is discharged through one end of the permeation pipe 310 through the plurality of permeation holes 312 and penetrates into the green ground.

Also, the drain unit 400 includes a drain pipe 410 .

One end of this drain pipe 410 is formed to protrude from the vegetation layer of the filter flower end 200, and the other end is connected to a rainwater pipe to drain it to a wastewater treatment plant.

Here, one end of the drain pipe 410 is formed higher than one end of the infiltration pipe 310 .

Looking at the operating state of the filtering end 200, the rainwater introduced into the first filtering unit 222 is filtered, and some of it is absorbed into the first vegetation soil layer 2222 and is underground through the first outlet hole 2142a. is penetrated into

And the rest is supplied to the second filtration unit 224 through the second outlet hole (2144a) when the water level is above a certain level.

Some of the rainwater supplied to the second filter unit 224 is absorbed into the second vegetation soil layer 2242 and is supplied to the other second vegetation soil layer adjacent to the third outflow hole 2146a, and at the same time, the first outflow hole 2142a ) penetrates into the ground.

And when the rest is above a certain water level, it penetrates into the ground of the surrounding green area through the penetration unit 300 , and when the water level of the second filter unit 224 is higher than one end of the penetration unit 300 , the drainage unit 400 . It is discharged to the rainwater pipe by the filtration and is prevented from overflowing from the end of the filter bed (200).

100: rainwater inlet 200: filtration end
210: flower bed body 220: filtration unit
300: penetration unit 400: drainage unit

Claims (10)

a rainwater inlet that flows into the road to collect rainwater;
a filtering end for filtering the rainwater introduced through the rainwater inlet;
an infiltration unit for infiltrating some of the rainwater filtered at the end of the filter bed into the surrounding permeable ground; and
A rainwater treatment system using vegetation and soil filtration comprising a; a drainage unit for draining some of the rainwater filtered at the filter flower end into a rainwater pipe. According to claim 1, wherein the rainwater inlet,
Stormwater inlet formed on road boundary stone; and
Rainwater treatment system using vegetation and soil filtration comprising; an inlet slope formed to be inclined so that rainwater from the road flows into the rainwater inlet. According to claim 1, wherein the filtering end,
a flower bed body part having a filtration space part open upwardly therein, and installed underground; and a filtration unit provided in the filtration space portion of the flower bed body to filter the flowing water. According to claim 3, wherein the filtering unit,
a first filtration unit for storing the rainwater introduced by the rainwater inlet and removing the sediment; and
A rainwater treatment system using vegetation and soil filtration comprising a; a plurality of second filtration units for filtering rainwater that has passed through the first filtration unit by planted plants. According to claim 4, wherein the flower bed body portion,
a plurality of posts arranged at the corners of the first filter unit and each second filter unit;
a plurality of panels provided between the adjacent posts to partition each filter unit; and
A rainwater treatment system using vegetation and soil filtration, including; a flower bed connection part for connecting each panel to the corresponding post. According to claim 5, wherein the panel,
a first panel for forming an outer periphery of the filtering space;
a second panel for partitioning the first filtering unit and the second filtering unit;
a third panel for partitioning each of the second filtering units; and
A rainwater treatment system using vegetation and soil filtration comprising; a bottom panel for forming a bottom surface of the filtering space. 7. The method of claim 6,
The rainwater treatment system using vegetation and soil filtration further comprising; The method of claim 3, wherein the penetrating portion,
A rainwater treatment system using vegetation and soil filtration comprising a; infiltration pipe having a plurality of infiltration holes at the other end, one end protruding from the vegetation soil layer at the end of the filter flower, and the other end being located in the ground. The method of claim 8, wherein the drainage unit,
A rainwater treatment system using vegetation and soil filtration, comprising: a drainage pipe having one end protruding from the vegetation soil layer at the end of the filter flower and the other end being connected to a rainwater pipe. The method of claim 9, wherein one end of the drain pipe,
Rainwater treatment system using vegetation and soil filtration, characterized in that it is formed higher than one end of the infiltration pipe.

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