KR101988245B1 - Rainwater penetration saving basket and install method of the same - Google Patents

Abstract

The present invention relates to a rainwater penetration storage basket and an installation method thereof, and more specifically, to a rainwater penetration storage basket and an installation method thereof, which prevent flooding of a lowland and exhaustion of underground water by slowly draining rainwater to an underground space after temporarily storing the rainwater and are possible to utilize the rainwater as landscaping water. According to the present invention, the rainwater penetration storage basket includes: a plurality of hollow basket main bodies continuously embedded in the ground; and a filling material filling the basket main body and absorbing the rainwater.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infiltration storage basket,

The present invention relates to a stormwater retention baskets and a method of installing the stormwater retention baskets. More particularly, it relates to a stormwater retention baskets and a method of installing the stormwater retention baskets, The present invention relates to an excellent infiltration storage basket and a method of installing the same.

In recent years, due to frequent abnormal weather, the risk of submergence flooding has been greatly increased due to localized heavy rain in summer, and the ecological environment is getting worse due to heat island, high temperature phenomenon and drought.

Especially, the city is becoming urbanized due to the rapid population concentration, and the residential area and the roads are packed with impervious materials for the convenience of living and the rainwater is changed into a structure that can not permeate into the ground.

The increase of the impervious surface increases the surface runoff during rainfall and shortens the runoff time, which is a direct cause of the urban flood. The groundwater level is lowered due to the reduction of rainwater infiltration in the ground, And the increase in water consumption, and the heating consumption in winter causes rapid increase of heat energy and water energy.

In addition, it does not provide the essential water necessary for the survival of the urban plants, including the trees and the landscape trees.

In order to solve these problems, the local governments including Seoul City have enacted the Water Circulation Restoration and the Basic Act on the Development of Low Impact, and the "Low Impact Development" to minimize the impact of the water environment due to indiscreet development on nature The government has implemented a policy to

In the rainwater runoff mechanism, rainwater penetrates into the ground first in the mountains and parks in the rainfall, and then surplus rainwater flows along the surface and flows out to the rivers. However, in the urban impervious area, rainwater is accumulated in the roadside, The water is collected immediately in the sewer through rainfall and sent to the water recovery center (sewage treatment plant), followed by sewage treatment, and then discharging to the river.

This is due to the fact that the rainwater is immediately discharged to the sewage treatment plant immediately after the rainfall, and the overflow and treatment cost of the sewage treatment plant due to the inflow storm treatment are rapidly increased, and when floods occur in the downstream area of the river, the roads, There is a problem that the moisture required for growth of trees and the like can not be supplied naturally through the excellent.

These problems have been solved through provision of water directly to plants such as trees in the spring or during the summer months when the plant grows quickly and requires a lot of water, or by installing irrigation facilities such as hoses temporarily. However, It is disadvantageous in that it is disadvantageous in that it requires a large maintenance cost such as manpower and cost.

Patent No. 10-1883774 Registration No. 10-1313936 Published Japanese Patent Application No. 10-2014-0109602 Registration Practical Utility Model No. 20-0399238

It is an object of the present invention to provide an excellent infiltration storage basket for temporarily storing rainwater and slowly draining it to prevent flooding of low ground and depletion of groundwater and utilization of rainwater as a landscape water, And a method of installing the same.

Another object of the present invention is to provide an excellent infiltration storage basket and a method of installing the infiltration storage basket that can prevent rotting of water.

Another object of the present invention is to provide an excellent permeation storage basket which can recycle industrial byproducts or wastes and a method of installing the same.

According to an aspect of the present invention, there is provided an excellent permeation storage basket comprising: a plurality of basket bodies continuously buried in the ground and hollow inside; And a filling material filled in the basket body to absorb rain.

In addition, at least one drainage hole for discharging the rainwater may be formed on the bottom surface of the basket body.

It is preferable that the bottom surface of the basket body is provided with a nonwoven fabric to prevent the filling material from being discharged to the drain hole.

A water level adjusting protrusion protruding from the bottom surface of the basket body by a predetermined height may be formed on the upper surface or the side wall of the water level adjusting pillar.

It is preferable that the water level controlling column is hollow.

Preferably, the first side surface drain hole is formed in the first side surface of the basket body, and the second side surface drain hole is formed in the second side surface facing the first side surface.

Preferably, the first side drain hole is an incision cut in a longitudinal direction from an upper end of the basket body to a predetermined height.

In addition, it is preferable that a connection member inserted into the cut-out portion of the basket body provided adjacent to the second side surface to be connected to each other is formed.

The connecting member may include a protrusion inserted into the cut-out portion of the basket body provided adjacent to the basket body, and a stopper extended from an end of the protrusion to prevent the cut-out portion from being detached in the lateral direction.

Preferably, the protruding portion is formed to protrude in a hollow shape so as to surround the second side drain hole.

The filler is preferably a porous lightweight stone.

The basket may further include a cover provided at an upper portion of the basket body and having a penetrating hole formed therein.

Further, a plurality of fixing protrusions are formed on the upper surface of the side wall of the basket body, and the cover is provided with a fixing slit into which the fixing protrusions are inserted.

The method for installing an excellent penetration reservoir basket according to the present invention comprises the steps of: 1) digging a reservoir at a place where an excellent penetration reservoir basket is installed; 2) inserting at least two basket bodies into the basket; And 3) filling the filler into the basket body.

The basket body may have a first side surface formed with a cut-out portion in the longitudinal direction from the upper end to a predetermined height, a second side surface facing the first side surface is projected to be inserted into the cut-out portion, It is preferable that the connection member is not detached.

In addition, it is preferable that the step 2) is installed such that the connection member is inserted into the cut-out portion and connected thereto.

4) after the step 3), fixing the cover to the upper part of the basket body.

In addition, it is preferable that the step 4) is performed while the cover covers a part of a pair of neighboring basket bodies.

Further, it is preferable that the method further comprises the step of 5) further filling the top of the filling material filled in the basket body with a finishing material.

According to the present invention, there is an effect that the stormwater can be temporarily stored and drained slowly. As a result, it is possible to prevent flooding of lowlands and to prevent the depletion of groundwater, thereby mitigating urban heat island phenomenon.

Also, it is easy to manage roadside or landscaping water in urban areas because it can utilize stored storm water as landscape water.

Particularly, since the porous lightweight stones are filled and the stones are absorbed sufficiently, it is possible to prevent the stagnant water from decaying while being slowly discharged to the ground.

In addition, excellent baskets are molded from waste vinyl as a raw material, and porous lightweight stones are used as raw materials for sludge, soft materials or ash, meaning that they can be recycled as industrial byproducts.

Also, when the superior basket is supplied with the storm surpassing the proper level, the overflow storm can be guided to flow in the horizontal direction from the upper part of the baskets and transferred to the storage place, thereby preventing flooding of the low ground.

FIG. 1 is a view showing an installation state of an excellent penetration storage basket according to the present invention.
2 to 7 show the structure of an embodiment according to the present invention.
Figure 8 illustrates various uses of embodiments of the present invention.
9 shows a light weight stone according to the present invention.
FIG. 10 is a flowchart illustrating a method of installing an excellent penetration reservoir basket according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration and an operation of an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an installation state of an excellent infiltration storage basket according to an embodiment (1) of the present invention. As shown in the figure, it can be seen that the embodiment (1) of the stormwater retention baskets according to the present invention is embedded in the ground continuously between the sidewalk blocks B0 installed in the sidewalk.

It is also understood that the embodiment (1) of the present invention includes the basket body 10, the filler 20, and the cover 30.

The basket body 10 will be described with reference to Figs. 2 to 5. Fig.

The basket body 10 according to the present invention is formed in a substantially rectangular parallelepiped shape and has an interior hollow and an open top.

At least one drain hole 12 for discharging the rainwater is formed on the bottom surface of the basket body 10. Since the amount per unit time of drainage into the underground is determined according to the size and the number of the drain holes 12, the size and the number of the drain holes 12 can be adjusted as necessary.

In order to prevent the filling material 20 from being discharged through the drain hole 12, the basket body 10 may be provided with a filler 20, 10 are laminated on the bottom surface of the nonwoven fabric 50. In addition, the nonwoven fabric 50 is seated in a circular-shaped seating portion 19.

The seating portion 19 is a component for positioning the nonwoven fabric 50 by placing it thereon. One side of the seating part 19 is formed with a groove 19a so that the rainwater stored on the floor through the groove 19a is drained through the drain hole 12 so as not to accumulate.

Particularly, the water level adjusting pillar 11 is formed inside the basket body 10. The water level adjusting pillar 11 is formed to protrude from the bottom surface of the basket body 10 by a predetermined height. The water level adjusting pillar 11 is hollow.

A water hole 11a through which the rainwater is discharged is formed on the upper portion of the water level controlling column 11. [ Therefore, when the stormwater is received up to the upper portion of the water level adjusting post 11, the water level is drained through the water port 11a so that the water level is not increased any more. The water supply port 11a may be formed on the upper surface of the water level adjusting post 11 as well as on the side wall.

A cylindrical mounting portion 19 surrounding the water receiving hole 11a formed on the upper surface of the water level adjusting post 11 is formed. Accordingly, the nonwoven fabric 50 is also seated on the seating portion 19 formed on the upper surface of the level-adjusting post 11 to control the amount and speed of drainage. The seat 19 formed on the upper surface of the water level adjusting post 11 is not provided with the groove 19a unlike the seat 19 formed on the floor surface.

In addition, side wall drain holes are formed on opposite sides of the basket body 10 facing each other. Specifically, a first side drain hole is formed in a first side surface of the basket body 10, and a second side drain hole 14 is formed in a second side surface facing the first side surface.

In this embodiment, the first side drain hole is formed as a cut-out portion 14 cut longitudinally from the top to a predetermined height.

And a connecting member 15 is protruded from the second side surface. That is, the connecting member 15 is a component for connecting the neighboring basket bodies 10 to each other. Specifically, in this embodiment, the connecting member 15 includes a cylindrical protrusion 15a protruding from the second side drain hole 14 to be inserted into the cutout 13, and an end portion of the protrusion 15a And an arc-shaped stopper 15b whose diameter is expanded. The stopper 15b is for preventing the connecting member 15 inserted in the cutout portion 13 formed on the first side from being detached laterally after the pair of basket bodies 10 are connected.

A groove 18 is formed in the side wall of the basket body 10 in the longitudinal direction. The strength is reinforced by the formation of such grooves 18.

The basket body 10 may be formed of various synthetic materials, metal materials, etc. In this embodiment, the waste material is utilized by melting and molding waste vinyl and the like.

6 is a perspective view illustrating a state in which the connecting member 15 formed on the second basket body 10B is connected to the cutout portion 13 formed in the first basket body 10A when the basket bodies 10 are continuously disposed adjacent to each other This is to illustrate the method.

As shown in the figure, after the first basket body 10A is embedded in the ground, the second basket body 10B is installed while being downwardly moved from the upper side.

At this time, the protrusion 15a formed on the second side surface of the second basket body 10B slides down on the cutout portion 13 formed on the first side surface of the first basket body 10A (see Fig. 6 A) and (B)). 6C, when the second basket body 10B is installed adjacent to the side of the first basket body 10A, the diameter of the arc-shaped stopper 15b is larger than the width of the cutout 13 It can be fixed so as not to be detached in the lateral direction. In other words, the cut portion 13 is inserted into the space between the second side wall and the stopper 15b.

A cover is coupled to the upper portion of the basket body 10.

Referring to FIG. 7, the covers 30A, 30B, 40A, and 40B have a plurality of long hole-like water hole holes 31 and 41 so that the rainwater can penetrate into the basket body. The covers 30A, 30B, 40A, and 40B may be formed of a steel material, and may be coated so as not to rust, or may be painted in various colors.

The cover 30A is formed with a fixed slit 32 and a plurality of fixing protrusions 16 inserted into the fixing slit 32 are formed on the upper surface of the side wall of the basket body 10.

The cover 30A is stacked on the basket body 10 such that the fixing protrusions 16 are inserted into the fixed slits 32. [ Further, the cover 30A is screwed to the basket body 10. The cover (30A, 30B, 40A, 40B) is provided with a fastening hole (33) for fastening the screw (B) to the edge and the edge.

A fastening groove 17 is formed in an upper portion of the side wall of the basket body 10 to correspond to the fastening hole 33. In the present embodiment, the fastening groove 17 is not formed with a tab . Therefore, when the screw (B) is tightened, the fastening force is strong because the fastening is performed while the tab is formed by the thread. Alternatively, a tab may be formed on the inner circumferential surface of the fastening groove 17 in advance.

Particularly, in this embodiment, first covers 30A and 30B having the same area as the upper surface of the basket body 10, and second covers 40A and 40B having a half area of the first cover.

The first covers 30A and 30B are coupled over a pair of neighboring basket bodies 10A and 10B. The second covers 40A and 40B are coupled to the left end of the upper surface of the first basket body 10A at both ends and the upper end of the upper surface of the third basket body 10C.

The basket bodies 10A, 10B and 10C are connected to each other by staggeredly coupling the basket bodies 10A, 10B and 10C and the covers 30A, 30B, 40A and 40B so that the basket bodies 10A, 10B and 10C, It is.

8 (a) shows a state in which the filler is filled in the basket body 10 according to the present invention, and then the cover 30 is screwed.

However, according to the present invention, as shown in FIG. 8 (b), the basket body 10 according to the present invention can be finely filled with the filler 20 without a cover. For example, when the embodiment of the present invention is installed in a park or the like, it is visually excellent to install the filler material so as to be exposed without a cover. Alternatively, if the filling material is partly filled in the basket body and the gravel or the like is laminated on the filling material, the gravel is visually exposed, so that it can be produced in a more natural form and utilized as a shiatsu road.

9 shows filler 20. The filling material 20 is for regulating the time for temporarily absorbing storm water and draining to the ground. Therefore, it is possible to fill a fiber material such as pulp or used cloth, and to fill sand or soil. In this embodiment, however, a porous lightweight stone is used as a filler. Porous lightweight stones are produced from various sludges such as sewage sludge and dyeing sludge, incinerators that burn sludge, household waste or industrial waste, or burned materials (fly ash or bottom ash) discharged from thermal power plants or cogeneration plants, Slag, and other industrial by-products (industrial waste).

Since the porous lightweight stone is a technology known from Patent Application No. 10-2004-0063372, a detailed description thereof will be omitted.

Such porous lightweight stones are light in weight and easy to carry and porous, so they have excellent ability to absorb and store storms. Therefore, during rain storm, rainwater is stored, and after heavy rains, it is gradually discharged to underground.

A method of installing an excellent penetration retention basket according to the present invention will be described with reference to FIG.

First, the place where the excellent penetration reservoir basket is installed is subjected to tearing (FIG. 10 (a)). It is usually installed in the nearest border between India and the road. Or if a press block B0 is already installed, a part of the press block can be removed and the tappers can be made. Particularly, it is more preferable to be installed between a row of trees and a row of trees. This is because pedestrians do not pass between the trees and the trees, so they can be installed without reducing the width of the sidewalk. In addition, when installed between a row of trees and a row of trees, it is possible to gradually discharge the storages stored in the stormwater retention baskets and utilize them as landscaping water for growth of aquatic trees, thereby reducing the inconvenience of supplying landscaping plants separately, .

Next, the basket main body 10 is installed adjacent to the disposable space in one row or two rows successively. At this time, as described above, the connecting member 15 is inserted into the incision portion 13 and fixed to each other (FIG. 10 (b)).

Next, the ground G is filled in both side surfaces of the basket body (Fig. 10 (c)).

Next, the sidewalk block B1 is installed on the gravel filled on both side surfaces of the basket body (Fig. 10 (d)).

Next, the inside of the basket body is filled with a porous lightweight stone filler 20 (Fig. 10 (e)).

Next, the cover 30 is screwed and fixed to the top of the basket body (Fig. 10 (f)). As described above, instead of fixing the cover, a method of visually exposing lightweight stones is also possible.

The operation of the present invention will be described with reference to Figs. 1 and 2. Fig. When the stormwater retention basket according to the present invention is installed, the stormwater is temporarily stored in the basket body 10, and then discharged slowly to the ground through the nonwoven fabric 50 and the drainage hole 12. Therefore, it can prevent submergence in lowlands during heavy rainfall. In addition, the amount of groundwater is increased and the urban heat island phenomenon is alleviated. Particularly, it is possible to supply the storm drains, which have been gradually discharged, to the trees and the like, and utilize them as landscaping water.

On the other hand, when the storm water flows into the basket body 10, the porous filler material 20 absorbs moisture, thereby increasing the water content. When the stormwater continuously flows into the upper end of the water level adjusting post 11, the water is rapidly discharged to the underground through the water inlet 11a and the water level is adjusted.

However, if the stormwater continues to flow over the upper end of the water level adjusting post 11, the overflowed water will flow into the cutout 13 and the second side drain hole 14, which are first side drain holes formed on both sides of the basket body 10, (Not shown) and drained through a sewer pipe to prevent flooding of the low-lying area.

The above-described embodiments are illustrative examples of the present invention, and various modifications are possible within the scope of the technical idea described in the claims. For example, a plurality of drain holes 12 formed on the bottom surface can be formed, and a plurality of water hole holes 11a formed on the water level adjusting post 11 can be formed. In place of the nonwoven fabric 50, the mounting portion 19 may be replaced with a sponge, pulp, or the like capable of absorbing water.

1: Example 10: basket body
11: Column for water level adjustment 12: Drain hole
13: incision part 14: second side drainage hole
15: Connecting member 16: Fixing projection
17: fastening groove 18: groove
19: seat portion 19a: groove
20: filler 30, 30A, 30B, 40A, 40B: cover
31, 41: Pitch hole 32: Fixed slit
50: Nonwoven fabric

Claims (9)

A plurality of basket bodies continuously buried in the ground and hollow inside; And
And a filling material filled in the basket body to absorb rainwater,
Wherein the basket body has a first side surface formed with an incision section cut from the upper end to the longitudinal side,
A second side drain hole is formed in the second side surface facing the first side surface,
A cylindrical protrusion surrounding the second side drain hole and protruding sideways; and an arc-shaped stopper having a diameter expanded at an end of the protrusion,
And a water level adjusting pillar protruding in a hollow form from a bottom surface of the basket body and having a water hole for discharging rainwater,
And the height of the water level adjusting post is lower than that of the second side drain hole.
The method according to claim 1,
Wherein at least one drain hole for discharging the rainwater is formed on the bottom surface of the basket body.
3. The method of claim 2,
And a bottom surface of the basket body is provided with a nonwoven fabric for preventing the filling material from being discharged to the drain hole.
delete The method according to claim 1,
Wherein the filling material is a porous lightweight stone.
The method according to claim 1,
Further comprising a cover provided on an upper portion of the basket body and having a permeable hole formed therein.
1) digging into the place where the excellent penetration reservoir basket is installed;
2) inserting at least two basket bodies into the basket; And
3) filling the filler into the basket body,
Wherein the basket body has a first side surface formed with an incision section cut from the upper end to the longitudinal side,
A second side drain hole is formed in a second side opposite to the first side,
A cylindrical protrusion surrounding the second side drain hole and protruding sideways; and an arc-shaped stopper having a diameter expanded at an end of the protrusion,
Wherein the cut-out portion is inserted between the second side of the neighboring basket body and the stopper. delete delete

Images