KR101218752B1 - Appraratus for storing and infiltrating rain water - Google Patents

Abstract

The problem to be solved by the present invention is to provide a rainwater storage penetrating device that can quickly collect rainwater that has permeated into the ground even if a large amount of rain in the playground, roads and the like.
Rainwater storage osmosis device of the present invention, the storage tank (10) buried in the ground; One end is connected to the upper side of the storage tank 10, the upper part is formed with an inlet portion 21 made of permeable porous concrete, the lower part of the collecting pipe 20 is formed of impermeable concrete to receive rainwater to the upper surface A plurality of collecting pipes 20 provided to the storage tank 10; One end is coupled to the side of the storage tank 10, the upper portion is formed of impermeable concrete, the lower portion is formed with a drainage portion 31 made of permeable porous concrete is provided with rainwater from the storage tank through the drainage portion 31 into the ground It includes a plurality of infiltration pipe 30 to discharge, the inner surface of the collecting pipe 20 is characterized in that the filter layer 22 for removing the foreign matter contained in the rainwater flowing into the inlet portion 21 is formed do.

Description

Rainwater Storage Penetration Device {APPRARATUS FOR STORING AND INFILTRATING RAIN WATER}

The present invention relates to a rainwater storage penetrating device that can quickly collect rainwater that has leaked into the ground even if a large amount of rain from a sports ground, a road, etc., and discharges the collected rainwater to the soil to provide groundwater.

Generally, a drainage port is formed in a sports ground, a road, etc. to collect rainwater and discharge into a river, or a storage tank for collecting and storing rainwater discharged as a drainage in a basement such as a playground and a road is stored.

However, when it rains, rainwater is discharged to the river through a drain pipe or stored in a storage tank, making it difficult to secure groundwater resources in the ground, and supplying enough water for the growth of roadside trees planted on the roadside in urban centers. There was a problem that the river is flooded with an increase or backflow through rainwater manholes.

Therefore, the present inventors have completed the study of a method that can be utilized as groundwater by sending it back to the ground while storing rainwater collected for a certain time even if it rains a lot.

The problem to be solved by the present invention is to provide a rainwater storage penetrating device that can quickly collect rainwater that has permeated into the ground even if a large amount of rain in the playground, roads and the like.

Another problem of the present invention is to provide a rainwater storage osmosis apparatus that can be discharged back to the soil slowly collected in the storage tank to provide groundwater.

Rainwater storage osmosis device according to the present invention, the storage tank (10) buried in the ground; One end is connected to the upper side of the storage tank 10, the upper part is formed with an inlet portion 21 made of permeable porous concrete, the lower part of the collecting pipe 20 is formed of impermeable concrete to receive rainwater to the upper surface A plurality of collecting pipes 20 provided to the storage tank 10; One end is coupled to the side of the storage tank 10, the upper portion is formed of impermeable concrete, the lower portion is formed with a drainage portion 31 made of permeable porous concrete is provided with rainwater from the storage tank through the drainage portion 31 into the ground It includes a plurality of infiltration pipe 30 to discharge, the inner surface of the collecting pipe 20 is characterized in that the filter layer 22 for removing the foreign matter contained in the rainwater flowing into the inlet portion 21 is formed do.

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Preferably, one side of the storage tank 10 is characterized in that the inlet pipe 11 which directly provides a large amount of rain collected from the outside is connected.

Preferably, it is characterized in that formed in a multilayer on the side of the storage tank of the penetration tube (30).

Preferably, the collection pipe 20 and the penetration pipe 30 is characterized in that formed on both sides of the storage tank.

Rainwater storage osmosis device according to the present invention has the advantage of being able to quickly collect the rainwater that penetrates into the ground even if a large amount of rain in the playground, road, etc. to quickly remove the water on the surface.

In addition, there is an advantage that can be provided as groundwater to the soil by slowly draining the collected rainwater back into the soil.

In addition, the rainwater storage osmosis device of the present invention has the advantage that can be variously adjusted according to the installation space the size of the storage tank, the collection pipe and the penetration tube.

1 is a perspective view of the rainwater storage penetration device according to the present invention.
2 is a sectional view of Fig. 1;
3 is a cross-sectional view of a collecting pipe according to another embodiment of the present invention.
Figure 4 is a state of use of the rainwater storage infiltration apparatus according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described a rainwater storage infiltration apparatus according to an embodiment of the present invention.

As shown, the rainwater storage osmosis device of the present invention includes a storage tank 10, a collecting pipe 20 and a penetration pipe 30.

Storage tank 10 is buried in the ground and can be made of concrete in a cylindrical shape, such as a free form of a square, but is preferably manufactured in a rectangular shape to connect a large amount of water collecting pipe 20 and the penetration pipe 30. In addition, one side of the storage tank 10 may be connected to the inlet pipe 11 that directly provides a large amount of rain collected from the outside.

The collecting pipe 20 is formed in a cylindrical shape and is positioned side by side on the ground and one end is connected to the upper side surface of the storage tank 10. The upper part of the collecting pipe 20 is formed with an inlet 21 made of permeable porous concrete, and the lower part of the collecting pipe 20 is formed of impermeable concrete to receive rainwater to the upper surface and provide it to the storage tank 10. . It is preferable that only one side of the collecting pipe 20 connected to the storage tank 10 is opened. At this time, the inlet portion 21 formed in the upper portion of the collecting pipe 20 is made of porous concrete having water permeability by mixing aggregate with high particle size, cement, water and the like, and the particle size forming the lower portion of the collecting pipe 20 It is made of impermeable concrete made by mixing low fine aggregate. In addition, the inlet part 21 may change the porosity and permeability coefficient according to the particle size of the aggregate used, and when the porosity and the permeability coefficient are increased, foreign matter may be included in the rainwater flowing into the collection pipe 20.

Thus, if the collection pipe 20 is continuously installed in the ground of the land, it is not necessary to provide a separate drainage system for the collection of rainwater, and it is possible to naturally collect the rainwater that penetrates into the soil, such as a playground, as well as the entire range of land. The water collection effect can also be improved because water is collected at. In addition, the external solid foreign matter can be prevented from entering the inside while passing through the porous portion of the inlet (21).

In addition, a filter layer 22 may be formed on the inner surface of the collecting pipe 20 to remove foreign substances contained in rainwater flowing into the collecting pipe 20.

On the other hand, the side of the storage tank 10 is connected to a plurality of infiltration pipe 30 for slowly draining the rainwater introduced into the storage tank 10 into the ground. The penetration tube 30 is formed in a cylindrical shape, the upper portion is formed of impermeable concrete, and the lower portion is formed with a drain 31 made of permeable porous concrete. Rainwater introduced into the storage tank 10 through the collecting pipe 20 is introduced into the infiltration tank and discharged into the ground through the drainage portion 31 of the permeable porous concrete formed at the bottom. Drainage 31 may change the porosity and permeability coefficient by adjusting the particle size of the aggregate is added to control the time to discharge the rainwater inside the ground.

As such, the collecting pipe 20 and the penetration pipe 30 may be formed on both sides of the storage tank. That is, if the storage tank 10 is installed in the center of the sports ground or the like, and the collection pipe 20 and the penetration pipe 30 are symmetrically positioned on both sides of the storage tank, the length of the collection pipe 20 and the penetration pipe 30 may be increased. It can be reduced to 1/2 for easy transportation and installation. In addition, by installing a plurality of storage tanks according to the installation location, by adjusting the size of the water collecting pipe and the inlet pipe can be easily produced in various sizes.

Hereinafter, looking at the operating state of the rainwater storage osmosis device of the present invention, first, excavate a place where rainwater soaks into the ground, such as a playground, install a storage tank 10 on one side in the ground, the lower side of the storage tank 10 A plurality of permeation pipes (30) are installed so that the permeable porous concrete drainage portion (31) is sequentially directed from the top to the bottom. In addition, a water collecting pipe 20 is installed at the uppermost side of the storage tank 10 so that the permeable porous concrete inlet 21 faces upward. At this time, the storage tank 10 can be divided into a plurality of installations in accordance with the size of the playground, road, etc., the collecting pipe 20 may be installed in the entire area of the playground. In addition, the inlet pipe 11 may be connected to one side of the storage tank 10 to directly receive a large amount of rainwater.

After the storage tank 10 of the present invention is rained down after the installation is completed in the playground, rainwater soaks into the soil and flows into the ground, the water collecting pipe 20 through the permeable porous concrete inlet portion 21 formed on the upper portion of the water collecting pipe 20. Inflow into the interior of the) is integrated into the storage tank (10). Rainwater introduced into the storage tank 10 is first supplied to the infiltration pipe 30 connected to the lowermost part of the storage tank 10 side, and if the inflow of rainwater is more, it is sequentially supplied to the penetration pipe 30 connected to the upper side.

On the other hand, the rainwater supplied to the penetration tube 30 is slowly discharged into the ground through the permeable porous concrete drainage portion 31 formed in the lower penetration tube 30.

In the present invention as described above, even if a large amount of rain in the playground, road, etc. can be stored quickly received rainwater penetrated into the ground through the collecting pipe 20, the stored rainwater is the drain 31 of the infiltration pipe 30 It can be slowly discharged into the ground and discharged without affecting the ground.

 On the other hand, the side of the storage tank 10 is connected to a plurality of infiltration pipe 30 for slowly draining the rainwater introduced into the storage tank 10 into the ground. The penetration tube 30 is formed in a cylindrical shape, the upper portion is formed of impermeable concrete, and the lower portion is formed with a drain 31 made of permeable porous concrete. Rainwater introduced into the storage tank 10 through the collecting pipe 20 is introduced into the infiltration tank and discharged into the ground through the drainage portion 31 of the permeable porous concrete formed at the bottom. Drainage 31 may change the porosity and permeability coefficient by adjusting the particle size of the aggregate is added to control the time to discharge the rainwater inside the ground.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: storage tank 11: inlet pipe
20: collecting pipe 21: inlet
22 filter layer 30 penetration tube
31: drain

Claims (5)

A storage tank 10 embedded in the ground;
One end is connected to the upper side of the storage tank 10, the upper part is formed with an inlet portion 21 made of permeable porous concrete, the lower part of the collecting pipe 20 is formed of impermeable concrete to receive rainwater to the upper surface A plurality of collecting pipes 20 provided to the storage tank 10;
One end is coupled to the side of the storage tank 10, the upper portion is formed of impermeable concrete, the lower portion is formed with a drainage portion 31 made of permeable porous concrete is provided with rainwater from the storage tank through the drainage portion 31 into the ground It includes a plurality of penetrating pipes 30 for discharging,
Rainwater storage osmosis device, characterized in that the inner surface of the collecting pipe 20 is formed with a filter layer 22 for removing the foreign matter contained in the rainwater flowing into the inlet (21). delete The rainwater storage penetration device according to claim 1, wherein one side of the storage tank (10) is connected to an inlet pipe (11) directly providing a large amount of rain collected from the outside. The rainwater storage permeation apparatus according to claim 1, wherein the rainwater storage penetration device is formed in multiple layers in the storage tank side of the infiltration pipe. The rainwater storage osmosis device according to claim 1, wherein the collecting pipe (20) and the penetration pipe (30) are formed on both sides of the storage tank.

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