KR101589594B1 - A underground infiltration waterway structure - Google Patents

Abstract

The present invention relates to an infiltration waterway structure for improving the circulation efficiency of water by improving infiltration efficiency of water which flows in a waterway at a low cost. The infiltration waterway structure comprises: a bottom surface; and a pair of wall surfaces which are respectively disposed at an interval to have a vertical height to the bottom surface, and forms a waterway space in which the water flows. In the infiltration waterway structure which is provided with an infiltration hole which is formed to penetrate the bottom surface from the inside to the outside to make the water in the waterway space infiltrate into the ground, the infiltration hole is formed to have an inclined angle in the reverse direction with respect to the flow direction of the water, and a cover accommodating a range in which the infiltration hole is disposed is provided on the bottom surface. In the cover, an inlet through which the water inflows in the flow direction of the water is formed to be narrower than an outlet through which the water is discharged. Therefore, the infiltration waterway structure prevents deposits from being accumulated inside the cover.

Description

A underground infiltration waterway structure

The present invention relates to an infiltrating waterway structure having an environmentally friendly water drainage structure that is adapted to be treated while infiltrating a part of water into a ground, and more particularly, to an infiltrating waterway structure having an environmentally friendly water drainage structure, The present invention relates to an infiltrating waterway structure which is improved efficiently.

In recent years, due to continuous climate change and urbanization, rainfall and rainfall intensity have increased by about 20%, rainfall days have decreased by 14%, and urban temperatures have increased up to 3 ° C.

As a result, the city water cycle system is destroyed, and urban water management conditions and environment are deteriorating.

In particular, urban flooding and flooding have increased due to the increase in water surface area, high temperature phenomena in urban areas have been increasing, and water quality has been deteriorated due to streamlining of urban rivers.

Therefore, it is necessary to secure water resources and disaster mitigation technologies at the urban and watershed level beyond the existing river-centered management level, and technology development is required.

As for the characteristics of urban areas, according to urbanization and population concentration, our living surroundings are covered with roads and buildings, making it difficult to lighten or touch the earth, which is the source of life.

Therefore, when it rains, shoes and clothes are no longer wetted by muddy water. However, the smell of soft soil and the texture of the soil have disappeared from us, and many useful things brought by the soil have disappeared.

In addition, due to the progress of urbanization and industrialization, the development of land is accelerating, and the area of roads, industrial complexes, residential land, and so on are increasing, adversely affecting water quality such as rivers and lakes due to nonpoint pollutants.

In addition, when it rains, rainwater quickly moves along paved roads and bridges, and flows into the river with many non-point pollutants along the road while moving.

As a result, as the surface of the ground is packed, the amount of water that passes through the soil and becomes groundwater gradually decreases and becomes exhausted.

In addition, vegetation-based soils in parks and gardens are often washed down in rainwater and hardened, making it harder to support underground creatures and lower rainwater into groundwater.

In recent years, a waterway structure has been proposed that can contribute to expand groundwater by penetrating a part of the rainwater runoff into the ground.

Korean Patent Registration No. 10-1288606 (entitled: Penetration Ditch) discloses a pretreatment tank having a bottom wall having an infiltration hole formed therein, an upstream wall connected to an inflow pipe, and a downstream wall having a target water transfer hole and an overflow portion, A house having a bottom formed with a penetrating hole, an upstream wall having a treated water transfer hole and an overflow portion, and a downstream wall connecting the discharge pipe; Further comprising a filtration tank provided between the pretreatment tank and the collection tank and having a bottom having a penetrating hole formed thereon and disposed in the pretreatment tank to filter contaminants mixed in the inflowed water to be treated, A filtration and backwashing pipe which is seated on the bottom of the pipe; A backwashing tube insertion hole formed at a lower end of the upstream wall of the collecting tube and downstream of the pretreatment vessel corresponding to both ends of the filtration and backwashing tube; And a stopper for opening and closing the backwashing sprinkler tube insertion hole.

On the other hand, in Korean Patent Registration No. 10-1509202 (name: eco-friendly waterway-type collecting and eco-friendly road structure including a drainage system using the same), as disclosed in the publication, Instead of the connection pipe, they are installed in the lower part of the road pavement layer alone, and the infiltration water flowing on the surface of the road pavement layer and the infiltration water beneath the pavement layer are respectively introduced through separate passages, A waterway canal fix for sewage is described.

Korean Patent Laid-Open Publication No. 10-2015-0061542 entitled " Non-motor-driven rainwater treatment operation facility for Ssamzie Park & rainwater treatment operation method ") discloses a rainfall- As a facility, a water permeable unit for guiding rainwater to the ground side; A water supply unit for collecting and sending rainwater permeated from the water permeable unit; A filtration processing unit for filtering the rainwater supplied from the water supply unit; A storage unit for receiving and storing the filtered rainwater in the filtration processing unit; And a non-powered rainwater supply unit for guiding the rainwater stored in the storage unit to the ground layer through a capillary phenomenon.

In addition, in Korean Patent Laid-Open No. 10-2015-0068612 (name: a block which is easy to penetrate rainwater and a method of pavement construction using the block), as described in the publication, the upper part is a loamy part, the lower part is a mortar part A block in which the loam and mortar portions are integrally and integrally joined together, a block in which the design portion is formed on the upper surface of the loamy soil, a block in which the design portion is formed on the loamy soil portion, A block in which the mesh net is inserted to improve the strength of the block in the mortar portion, and a dome-shaped space portion formed in the bottom portion of the mortar portion to close the rainwater infiltration hole by the foreign matter flowing into the rainwater infiltration hole Block is described.

1. Korean Patent Registration No. 10-1288606 2. Korean Patent Registration No. 10-1509202 3. Korean Patent Publication No. 10-2015-0061542 4. Korean Patent Publication No. 10-2015-0068612

However, in the conventional waterway structure as described above, there is a problem in that it is difficult to form an efficient water circulation environment due to a poor penetration ability of the water moving in the waterway.

It is an object of the present invention to provide an infiltrating waterway structure capable of efficiently improving the infiltration efficiency of water moving in a waterway and thereby improving circulation of water, .

In order to achieve the object of the present invention, the infiltrating water channel structure of the present invention is provided with a bottom surface and a water channel space Wherein the bottom surface is provided with an infiltration hole penetrating from the inside to the outside so as to infiltrate water into the ground in the water passage space, the infiltration water passage structure comprising: The infiltration hole is formed with an inclination angle opposite to the direction in which the water moves; Wherein the bottom surface is provided with a cover for accommodating a range in which the penetrating hole is disposed; The cover is narrower than an outlet through which the water flows in the direction in which the water flows, so that sediments such as sludge are not accumulated inside the cover.

The cover has a narrow inlet and a wide outlet on a plane, and the center of the inlet protrudes toward a direction in which water flows to form a vertex.

A partition wall is formed at the center of the inlet of the cover in the direction from the front end to the outlet, so that the water flows while being branched.

The upper portion of the cover may have a slope lowered from the inlet to the outlet so that the height of the inlet is lower than the height of the outlet.

A plurality of assembly blocks each including a bottom plate having a length and forming the bottom surface and having the penetrating holes and a pair of side plates vertically extending from both ends of the bottom plate to form the side surfaces, So that the water passage space is formed.

The infiltrating water channel structure of the present invention as described above has a simple structure and can be economically applied. It is possible to smoothly discharge sediments such as sludge and the like from the inside of the cover, and to improve water infiltration efficiency I have.

Thereby, it is possible to economically realize stable circulation of water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view illustrating an infiltrating water channel structure according to an embodiment of the present invention; FIG.
Figs. 2 to 4 are schematic views showing the use state of the infiltrating water channel structure according to the present embodiment. Fig.
5 to 7 are schematic views showing an assembling block applied to a waterway structure according to the present embodiment.
8 is a schematic view showing another example of a cover applied to a waterway structure according to the present embodiment.
9 is a schematic view showing another example of a cover and a penetrating hole applied to a waterway structure according to the present embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an infiltrating water channel structure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 to 4 are views showing an infiltrating water channel structure according to an embodiment of the present invention. The infiltrating water channel structure 1 according to the present embodiment has a bottom surface 2, And a pair of wall surfaces 3 arranged to have a height perpendicular to the bottom surface 2 so as to form a water passage space in which water flows.

That is, water flows through the channel space (4) formed in the space between the bottom surface (2) and the side surface (3), and is stably applied to various drainage systems and the like.

In the infiltrating water channel structure 1 according to the present embodiment, the bottom surface 2 is provided with an infiltration hole 5 penetrating from the inside to the outside so as to infiltrate water into the ground in the water channel space 4, Respectively.

That is, water moving in the water passage space (4) through the penetration hole (5) penetrates into the ground.

Accordingly, when the rainfall runoff is treated, a portion of the rainwater is infiltrated into the ground, thereby contributing to the expansion of groundwater, thereby realizing an environmentally friendly water circulation system.

In the infiltrating water channel structure 1 according to the present embodiment, it is preferable that the infiltration hole 5 is formed with an inclination angle opposite to the direction in which the water moves.

Accordingly, when the water penetrates into the penetration hole 5, it is prevented that the sediment such as sludge is penetrated and clogged so that the water penetrates through the penetration hole 5 actively, Thereby implementing a circulation system.

In this case, the penetration hole 5 gradually increases its inner diameter from the bottom surface 2 toward the outside, so that penetration of the impregnation is difficult, and penetration of water is facilitated.

It is preferable that the bottom surface 2 is provided with a cover 6 which accommodates the range in which the penetrating hole 5 is disposed. It is most preferable that the inlet 61 is formed narrower than the outlet 62 through which the water is discharged so that deposits such as sludge are prevented from being accumulated inside the cover 6. [

Therefore, it is possible to prevent the deposit from flowing into the cover 6, thereby preventing the deposit from closing the infiltration hole 5, thereby facilitating the infiltration of water more smoothly and achieving a stable water circulation .

8, the cover 6 is formed such that the inlet 61 is narrow and the outlet 62 is wide, and the center of the inlet 61 is a side toward a direction in which water flows So that the water flowing through the water passage space 4 flows more smoothly through the inclined inlet 61. In this case,

In addition, it is most preferable that a partition wall 63 having a length in the direction toward the outlet 62 from the front end is formed at the center of the inlet 61 of the cover 6 to allow the water to flow while being branched.

The upper portion of the cover 6 has a side surface on which the height of the inlet 61 is lower than a height of the outlet 62 so that the upper surface of the cover 6 is inclined upward from the inlet 61 toward the outlet 62 It is most preferable that the sediment is not easily introduced into the inlet 61 side.

In the infiltrating channel structure 1 according to the present embodiment as described above, the cover 6 may be designed to have various shapes. In this case, the flow of water is smooth and the inlet 61 It is most preferable to design it so as to have a shape that prevents the deposit from flowing into the space.

The cover 6 may be designed in a basic shape such as a streamline shape, a stingray shape, a squeegee plane, a squid, etc., and a suitable shape may be applied according to the user's selection.

The infiltrating water channel structure 1 according to this embodiment can be constructed such that a plurality of assembly blocks 10 are connected to each other in the longitudinal direction to form the channel space 4. [

The assembly block 10 comprises a bottom plate 11 having a length and forming the bottom surface 2 and having the penetration holes 5 and a vertical plate 11 extending vertically from both ends of the bottom plate 11, And a pair of side plates 12 forming the side surfaces 3, respectively.

5 to 6, the infiltration hole 5 and the cover 6 may be integrally formed on the bottom plate 11. In this case, at the manufacturing site, As shown in FIG.

In the bottom plate 11, a recess 13 may be formed in a bottom surface of the range where the penetration hole 5 is located. In this case, the bottom surface of the bottom plate 11 The contact area is widened to stably apply the water, and the water penetrating through the penetration hole 5 penetrates the ground more stably.

8, the infiltration hole 5 is integrally formed with the bottom plate 11, and the cover 6 is formed separately, and the bottom plate 11 is provided with the cover (not shown) 9, a portion where the penetration hole 5 is located in the assembly block 10 is opened, and the cover 6 and the penetration hole 5 5 may be integrally formed separately and then connected through the openings to form the channel space 4. It is preferable that the bottom plate is applied according to the user's selection.

When the bottom plate having the cover 6 and the infiltration hole 5 formed thereon is formed separately from the assembly block 10 and is later combined to form the channel structure 1, 10), and can be provided more economically.

Hereinafter, the operation and effect of the infiltrating water channel structure according to the present embodiment will be described in detail.

2 to 4 are views showing an infiltrating water passage structure according to the present embodiment. In the infiltrating water passage structure 1 according to the present embodiment, as shown in FIG. 2, water is introduced into the water passage space 4 A part of the water is introduced into the interior of the cover 6 through the inlet 61 of the cover 6 and then discharged through the outlet 62. [

As the water moves from the inlet (61) to the outlet (62), a part of the water penetrates into the ground through the penetrating hole (5).

At this time, the inflow of sediment through the inlet 61 is prevented, so that the infiltration of water can be performed more smoothly.

Therefore, the penetration efficiency of water is improved by a simple structural characteristic, and a stable circulation of water can be realized economically.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention as defined by the appended claims and their equivalents. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: Waterway structure 10: Assembly block
11: bottom plate 12: side plate
13: lumbar region 2: bottom face
3: side 4: channel space
5: infiltration ball 6: cover
61: inlet 62: outlet
63: partition wall

Claims (5)

And a pair of wall surfaces spaced apart from each other with a space therebetween and vertically arranged to have a height perpendicular to the bottom surface so as to form a water passage space in which water flows, 1. An infiltrating waterway structure having a penetrating hole penetrating from the inside to the outside so as to infiltrate water into the ground from the space;
The penetrating ball
Is formed with an inclination angle in a reverse direction with respect to a direction in which water is moved;
On the bottom surface,
A cover for receiving a range in which the penetrating hole is disposed;
The cover
Wherein an inlet through which water is introduced with respect to a direction in which water flows is narrower than an outlet through which water is discharged so that deposits are not accumulated in the inside of the cover.
The method of claim 1, further comprising:
The above-
Wherein the inlet has a narrow shape and the outlet has a wide shape;
The center of the inlet
And protrudes toward the direction in which the water flows to form a vertex.
The method of claim 1, further comprising:
At the center of the entrance of the cover,
And a partition wall is formed in a direction from the tip end to the outlet side so that the water flows while being branched.
The method of claim 1, further comprising:
In the upper part of the cover,
Wherein the height of the inlet is lower than the height of the outlet so that the inlet is formed with an inclined surface upward from the inlet to the outlet.
The method of claim 1, further comprising:
A plurality of assembly blocks including a bottom plate having a length and forming the bottom surface and having the penetration holes and a pair of side plates vertically extending from both ends of the bottom plate to form side surfaces,
And the water passage space is formed by being coupled with each other in the longitudinal direction.

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