KR20120121694A - Multi tubular type-rainwater storage and infiltration system considering water quality of rainwater runoff on artificial ground and rainwater management method - Google Patents

Abstract

PURPOSE: A multi tubular type rainwater storage and infiltration system and a rainwater management method considering the water quality of rainwater leaking from the artificial ground are provided to efficiently treat, store, and use rainwater leaking from the artificial ground. CONSTITUTION: A multi tubular type rainwater storage and infiltration system considering the water quality of rainwater leaking from the artificial ground comprises a rain gutter unit(10), a first storage tank, a second storage tank(30), and a rainwater supply unit(40). The rain gutter unit stores and treats rainwater leaking from the artificial ground of a sidewalk(1) or a road(2). The first storage tank receives the rainwater from the rain gutter unit. The second storage tank receives rainwater overflowing from the first storage tank through an overflow pipe(4). The rainwater supply unit supplies rainwater stored in the first storage tank and/or the second storage tank to a required place.

Description

MULTI TUBULAR TYPE-RAINWATER STORAGE AND INFILTRATION SYSTEM CONSIDERING WATER QUALITY OF RAINWATER RUNOFF ON ARTIFICIAL GROUND AND RAINWATER MANAGEMENT METHOD}

The present invention relates to a multi-pipe type rainwater storage infiltration system and rainwater management method considering the water quality of artificial ground rainwater runoff, and more specifically, to separate the rainwater flowing out of urban artificial ground such as roads, sidewalks, green spaces according to the water quality Multi-pipe type considering the water quality of artificial ground rainwater effluent, which can secure water used for various purposes, improve the green ecosystem, and also provide functions of improving the thermal environment and non-point pollution control. A rainwater storage infiltration system and a rainwater management method.

The present invention is derived from research conducted as part of the 21st century frontier R & D project (water resources) of the Ministry of Education, Science and Technology. [Task unique number: 4-3-3, Project title: Application of storm water storage and utilization system (3 steps) 4th year)].

In general, from the point of view of a sound water cycle, when it rains, rainwater has to penetrate into the ground through the ground or evaporate from the ground.

Recently, due to the rapid urban development, most of the ground is made of impermeable artificial ground such as concrete and asphalt pavement, which is improved in urban aesthetics or usability.

However, since most of the ground is composed of impermeable artificial grounds, due to the destruction of the water cycle, most of the urban flooding and rainwater due to the load of storm water drainage due to heavy rains, the groundwater decreases due to the surface runoff, and the dryness of the rivers and the water quality. There is a problem such as contamination. In addition, the distortion of the water cycle generates heat islands and the like, which causes the heat cycle distortion.

Therefore, a situation that needs to be solved to solve this problem, various types of infiltration trench (trench) or rainwater storage tank has been developed to solve this problem.

However, in the case of the infiltration trench, there is a problem of deterioration of the water permeation function due to soil and contaminants after a certain period of time, and there is a limiting factor for the installation space.

In addition, in the case of the existing rainwater storage tank, it is effective to collect the rainwater to remove pollutants and drain most of the rainwater to the rainwater pipe, but it is effective in terms of water purification. Is installed is required to secure the installation space for this situation.

In addition, rainwater storage is induced in certain areas such as the roof surface, green surface, and road surface of buildings, and the storage tank for storing rainwater is installed as a structure, so it is difficult to control the amount of rainwater. Limitations may occur. Therefore, there is a problem in that a plurality of reservoirs are required for collecting rainwater from various catchment surfaces.

Therefore, the present invention has been proposed to solve the above problems, the sewage from the various artificial grounds such as roads, sidewalks, greenery, etc. to separate and treat according to the water quality through a single rainwater storage system and storage, Multi-pipe type considering the water quality of artificial ground rainwater effluent with improved utilization effect such as easy to secure installation space and increase efficiency of transport pipeline to rainwater utilization by spreading and installing existing storage tanks in the form of pipe network. Its purpose is to provide a storage infiltration system and stormwater management method.

According to a first aspect of the present invention for achieving the above object, the rain gutter means for storing the rain water flowing out of the artificial ground; A first storage tank for receiving and storing rainwater from the rain gutters through a connecting pipe; A second storage tank receiving rainwater flowing over from the first storage tank through a overflow pipe; And rainwater supply means for supplying rainwater stored in at least one of the first storage tank and the second storage tank to a utilization site.

It is preferable to have a filter member which is installed in at least one of the rain gutter means or the first storage tank and filters the initial rain water introduced therein.

The rain gutter means is provided with a partition wall extending a predetermined length downward from an upper end therein to form a rain water inflow space and a rain water outlet space, and the connecting pipe is configured to be connected to the upper side of the rain water outlet space side of the rain gutter means. Can be.

The first storage tank is composed of a space in which the initial rainwater flows in and the rainwater flowing into the second storage tank after the rainwater flows into the second storage tank. When the rainwater flows in a predetermined amount, the initial rainwater flows into the space. It may be configured to include a control member for controlling the inflow.

The first storage tank has an inflow passage through which the initial rainwater flows, and partitions the inner and upper partitions; And it is provided in the inflow passage, it may be configured to include a water level control floating member for controlling the initial rainwater inflow by controlling the inflow passage while floating when the initial rainwater is introduced a predetermined amount or more.

The first storage tank is preferably provided with a manhole on the top for maintenance therein.

Preferably, the first storage tank and the second storage tank are formed in a tubular shape, and the second storage tank is configured such that a plurality of distribution holes for rainwater penetration are formed.

The second storage tank is preferably located at the bottom of the re-permeable utilization so that the rainwater supplied to the utilization by the rainwater supply means can infiltrate again.

The rainwater supply means includes a supply pipe connected to at least one of the first storage tank and the second storage tank; And pumping means for pumping rainwater through the feed canal.

According to a second aspect of the invention, the rainwater receiving step for receiving rainwater from the artificial ground; A storage step of first storing the rainwater received in the rainwater receiving step; A storage / infiltration step of storing and infiltrating the rainwater that overflows after collecting a predetermined amount or more of rainwater in the storage step; Supplying rainwater stored in the storage step after the rainfall is completed to rainwater infiltrate utilization; A repenetration inducing step of inducing the infiltration of rainwater supplied to the permeable utilization point into the space of the storage / infiltration step; And it provides a rainwater management method comprising a transfer step for transferring the rainwater stored in the re-infiltration step to each utilization.

The rainwater receiving step may include treating the initial rainwater before the rainwater is supplied to the storage step.

Preferably, the space where the rainwater is stored and penetrated in the storage / infiltration step is located below the rainwater permeable utilization.

According to the multi-pipe type storage infiltration system and rainwater management method considering the water quality of artificial ground rainwater effluent according to the present invention, it is possible to simultaneously perform the treatment, storage, infiltration and utilization functions of rainwater discharged from various artificial grounds at once. have.

In addition, according to the present invention, as the storage tank in the form of a pipe network is installed, it is possible to efficiently use the space in which the facility is installed and the land availability, and to consider the distance to the utilization point, etc., even when installing a transport pipe for utilizing rainwater. It works.

In addition, according to the present invention, the rainwater discharged to the greenery through the storage tank has the effect of being stored or penetrated through the natural purification again, there is an effect that can be integrated to solve various environmental problems, such as water circulation and water quality problems.

1 is a schematic view showing the configuration of a multi-pipe type storage infiltration system considering the water quality of artificial ground rainwater outflow according to the present invention.
Figure 2 is a schematic diagram showing the configuration of the initial rainwater storage pipe-type storage tank in a multi-pipe storage system in consideration of the water quality of artificial ground rainwater outflow according to the present invention.
Figure 3 is a configuration schematically showing the configuration of the rainwater supply means and swale installed in order to transport the primary treated rainwater to the greenery in the multi-pipe type storage infiltration system according to the present invention to be naturally purified by infiltration and collected in the storage tank again Degree.
Figure 4 is a chart showing a rainwater management method using a multi-pipe storage infiltration system according to the present invention.

Further objects, features and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings.

The multi-pipe type storage infiltration system considering water quality of artificial ground rainwater effluent according to the present invention basically includes rainwater receiving means for storing and treating rainwater flowing out of artificial ground; A first storage tank for receiving and storing rainwater from the rain gutters through a connecting pipe; A second storage tank receiving rainwater flowing over from the first storage tank through a overflow pipe; And rainwater supply means for supplying rainwater stored in at least one of the first storage tank and the second storage tank to a utilization point.

In addition, it is installed in at least one of the rain gutter means or the first storage tank, and further comprises a filter member for filtering the incoming initial rain water.

Hereinafter, a preferred embodiment of a multi-pipe type storage infiltration system considering water quality of artificial ground rainwater effluent according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing the configuration of a multi-pipe storage reservoir infiltration system considering the water quality of artificial ground rainwater outflow according to the present invention, Figure 2 is a multi-pipe storage under consideration of the water quality of the artificial ground rainwater outflow according to the present invention Figure 3 is a schematic view showing the configuration of the initial rainwater storage pipe-type storage tank in the infiltration system, Figure 3 is a multi-pipe storage system in accordance with the present invention by transporting the first rainwater to the greenery and natural purification by infiltration It is a block diagram which shows the structure of rainwater supply means and a swale which are installed in order to collect | restore in a storage tank again. Arrows in the figures indicate rainwater flow paths.

In the multi-pipe type storage infiltration system considering water quality of artificial ground rainwater effluent according to the present invention, as shown in FIGS. 1 to 3, artificial ground of impervious surfaces such as the sidewalk 1 and the road 2 is shown. Rain gutter means for storing the rain water flowing out from the 10; A first storage tank (20) for receiving and storing rainwater from the rain gutter (10) through a connecting pipe (3); A second storage tank 30 receiving rainwater flowing over from the first storage tank 10 through the overflow pipe 4; And rainwater supply means 40 for supplying rainwater stored in at least one of the first storage tank 20 and the second storage tank 30 as utilization water for a utilization place such as the green area 5.

The rain gutter 10 is a filter-type rain gutter which receives rainwater from an impervious surface such as a sidewalk 1 or a road 2 and performs a primary treatment, and a partition wall 11 extending from the upper end thereof is provided therein. It is divided into rainwater inflow space and outflow space. The connecting pipe (3) is connected to the upper side of the outlet space side of the rain gutter 10, it is preferable to let the rain water, such as arrow A flows.

In the rain gutter 10, impurities such as soil and sand are filtered out through precipitation.

Here, the present invention is provided with a filter member (not shown) is installed in the rain gutter 10 before the rain water is transferred to the first storage tank 10 to filter the initial rain water flowing into the first storage tank (10). can do.

Rainwater treated first by the rain gutter 10 is stored in the first storage tank 20.

It is preferable that the first storage tank 20 is formed in a tubular shape, and the shape of the first storage tank 20 is not necessarily limited to the tubular shape, which can be fully understood by those skilled in the art.

The first storage tank 20 is composed of a space in which initial rainwater flows (initial rainwater inflow tank) and a space in which rainwater flows in later flows and is transferred to a second storage tank 30 (rainwater overflow tank), and initial rainwater It includes a control member for controlling the inflow of the initial rain water when a certain amount of rain water flows into the inflow space.

In one embodiment, the first storage tank 20, as shown in Figure 2, has an inlet passage through which the initial rain water flows, partition member 21 for partitioning the inside up and down; And a level member floating member 22 for controlling the initial rainwater inflow by controlling the inflow passage while floating when the initial rainwater flows in a predetermined amount.

As such, when the initial rainwater flows into the first storage tank 20 by a predetermined amount or more, the initial rainwater inflow is controlled by the water level control floating member 22, and after that, the rainwater flows over the second storage tank through the overflow pipe 4. 30). Therefore, rainwater storage is made in consideration of the quality of rainwater.

In addition, the first storage tank 20 may be provided with a manhole (not shown) in the upper portion to enable internal maintenance.

The second storage tank 30 may store and also penetrate rainwater provided through the overflow pipe 4 from the first storage tank 10. Thus, a plurality of distribution holes 31 are formed in the second storage tank 30.

It is preferable that the second storage tank 30 is formed in a tubular shape, and the shape thereof is not necessarily limited to the tubular shape, which can be fully understood by those skilled in the art.

Here, as will be described below, it is preferable that the second storage tank 30 is positioned below the utilization point so that rainwater supplied to the utilization point such as the green area by the rainwater supply means 40 can be penetrated and provided again. Do.

Next, rainwater supply means 40 for supplying rainwater stored in at least one of the first storage tank 20 and the second storage tank 30 as utilization water for a utilization place such as the green area 5 is shown in the drawing. As shown, the rainwater is pumped through the supply pipe 41 and the supply pipe 41 for supplying rainwater to a utilization point such as a green area, which is connected to at least one of the first storage tank 20 and the second storage tank 30 and is permeable. Pumping means 42 for

In FIG. 2, the rainwater supply means 40 has shown the example comprised in the initial rainwater inflow tank of the 1st storage tank 20. As shown in FIG.

As such, the rainwater introduced into the initial rainwater inflow tank of the first storage tank 20 is sent to the surrounding water 5 through the pumping means 42 to the landscape water. Here, as shown in FIG. 3, a swage 6 or the like may be formed in the green space 5.

Rainwater that is sent to the greenery 5 through the pumping means 42 as landscaping water and sprinkled on the greenery 5 is induced to allow secondary treatment of fine impurities and the like through greenery infiltration and swale 6. Rainwater penetrated through the secondary treatment may be introduced into the second storage tank 30 positioned below the green space 5 and transferred to the final utilization place through the rainwater supply means.

In FIG. 3, reference numeral 43 denotes a water supply device such as a spring cooler (in the case of greenery) that can use rainwater (water) supplied through the supply pipe 41.

Rainwater introduced into the second storage tank 30 can be utilized as landscape water, hydrophilic water, cleaning water, fire fighting water, etc., and the utilization method can be determined according to surrounding conditions.

On the other hand, Figure 4 is a chart showing a rainwater management method using a multi-pipe storage infiltration system according to the present invention.

Referring to the rainwater management method of the multi-pipe type storage infiltration system considering the water quality of artificial ground rainwater outflow according to the present invention, the rainwater receiving step of receiving rainwater from the artificial ground of the impervious layer such as roads and sidewalks; A primary storage step of first storing the rainwater received in the rainwater receiving step through a first storage tank; A second storage step of supplying rainwater stored in the first storage step to the utilization destination, and storing the rainwater more than a predetermined amount so that the second storage is performed through the second storage tank; A repenetration inducing step of inducing to reinfiltrate the utilized rainwater supplied to the utilization place into the second storage space; And a transfer step of transferring the rainwater stored in the secondary storage step to each utilization.

The rainwater receiving step includes a primary treatment of treating (filtering) the initial rainwater prior to feeding for the primary storage step.

In supplying the primary stored rainwater to the utilization point, the utilization point may be a zone where rainwater can be re-infiltrated, such as a nearby green zone, where rainwater passing through the green zone is infiltrated by greenery and / or swale Is formed) to be introduced into the secondary storage space (second storage tank) while secondary processing.

Therefore, the space for storing the rainwater (second storage tank) in the secondary storage step is to be located under the re-infiltrate utilization.

As mentioned above, the multi-pipe type storage infiltration system and rainwater management method considering the water quality of artificial ground rainwater effluents not only acts as an initial response to urban flooding during heavy rains, but also induces possible utilization from the beginning of rainwater inflow. It can be induced to utilize as.

In addition, the present invention in the rainwater management operating system that controls only a predetermined area, such as roads, green areas, buildings, etc., by controlling two or more target zones in a system of linear pipe storage tank type, ease of installation and management during installation and rainwater When it is utilized, it is possible to construct an optimal system such as minimization of transportation and easy change of pipeline due to expansion of rainwater utilization.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes within the scope not departing from the technical spirit of the present invention are possible in the art. It will be evident to those who have knowledge of.

1: press
2: road
3: connector
4: overflow pipe
5: greenery
10: rain gutter
20: first reservoir
30: second reservoir
40: rainwater supply means

Claims (12)

Rain gutters for storing and treating rainwater flowing out of the artificial ground;
A first storage tank for receiving and storing rainwater from the rain gutters through a connecting pipe;
A second storage tank receiving rainwater flowing over from the first storage tank through a overflow pipe; And
Rainwater supply means for supplying rainwater stored in at least one of the first storage tank and the second storage tank to the utilization destination
Multiple pipeline type storage infiltration system considering the water quality of artificial ground rainwater outflow comprising a.
The method of claim 1,
Is installed in at least one of the rain gutter means or the first storage tank, and provided with a filter member for filtering the incoming initial rain water
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method according to claim 1 or 2,
The rain gutter means is provided with a partition wall extending a predetermined length downward from the upper end therein to form a rainwater inflow space and a rainwater outflow space,
The connecting pipe is connected to the upper side of the rain water outlet space of the rain gutter means
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method according to claim 1 or 2,
The first storage tank is composed of a space in which the initial rainwater flows in and a rainwater overflowing space in which the rainwater flowing in thereafter flows to the second storage tank.
It includes a control member for controlling the inflow of the initial rain water when a certain amount of rain water flows into the space in which the initial rain water flows;
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method according to claim 1 or 2,
The first reservoir is
A partition member having an inflow passage through which the initial rainwater is introduced and partitioning the inside into upper and lower portions; And
It is provided in the inflow passage, and includes a water level control floating member for controlling the initial rainwater inflow by controlling the inflow passage while floating when the initial rainwater is introduced in a predetermined amount or more.
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method of claim 5,
The first storage tank is provided with a manhole on the top for maintenance of the inside
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method of claim 1,
The first storage tank and the second storage tank is formed in a tubular shape,
The second storage tank is formed with a plurality of distribution holes for rainwater penetration
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method of claim 1,
The second reservoir is located under the re-infiltrate utilization so that rainwater supplied to the utilization by the rainwater supply means can infiltrate and enter again.
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
The method of claim 1,
The rainwater supply means
A supply pipe connected to at least one of the first storage tank and the second storage tank; And
Pumping means for pumping rainwater through the feed canal;
Multi-pipe Type Storage Infiltration System Considering the Water Quality of Artificial Ground Rainwater Effluent.
Rainwater receiving step for receiving rainwater from the artificial ground;
A storage step of first storing the rainwater received in the rainwater receiving step;
A storage / infiltration step of storing and infiltrating the rainwater that overflows after collecting a predetermined amount or more of rainwater in the storage step;
Supplying rainwater stored in the storage step after the rainfall is completed to rainwater infiltrate utilization;
A repenetration inducing step of inducing the infiltration of rainwater supplied to the permeable utilization point into the space of the storage / infiltration step; And
And a transfer step of transferring the rainwater stored in the re-infiltration step to each utilization destination.
How to manage rainwater.
The method of claim 10,
The rainwater receiving step includes treating the initial rainwater before the rainwater is supplied to the storage step.
How to manage rainwater.
The method of claim 10,
The space where the rainwater is stored and penetrated in the storage / infiltration step is positioned below the rainwater-permeable utilization.
How to manage rainwater.

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