KR102054224B1 - Method and Structure for Making Groundwater Supply Storage - Google Patents

Abstract

The present invention is composed of particles of uniform size made of a synthetic resin having a high porosity and can contain a large amount of groundwater and is installed on the downstream side of the artificial porous medium reservoir, the groundwater flow By constructing a structure that forms a groundwater storage space using a dam structure that blocks the groundwater, and creating a groundwater storage space by using it, the groundwater can be designed and constructed so that the structure can be designed and constructed to have a groundwater storage capacity that meets the required water resources. The present invention relates to "a method for constructing a groundwater storage space using an artificial porous medium reservoir and a dam structure and a structure therefor that can optimize management for securing and supplying".

Description

Method for creating groundwater storage space using artificial media storage body and dam structure and structure therefor {Method and Structure for Making Groundwater Supply Storage}

The present invention relates to a method for forming a space ("groundwater storage space") that can hold groundwater by blocking the flow of groundwater, and a structure for forming such groundwater storage space, specifically, a uniform made of synthetic resin Artificial pore reservoirs, which consist of particles of one size and have a high porosity and can contain a large amount of groundwater, and are installed on the downstream side ("downstream side") of the artificial medium reservoirs. By using the dam structure to block the flow of the groundwater, the groundwater storage space is formed and the groundwater storage space is used to construct the groundwater storage space. To optimize management for securing and supplying groundwater. It relates to a method groundwater storage space using the dam body and the structure and composition of structure for this purpose. "

The most common method of securing water is to confine the river water by installing a dam structure that blocks the flow of river water, as disclosed in Korean Patent Registration No. 10-0895273.

However, in the prior art in which the river water is simply confined and stored using the dam structure, the amount of evaporation of the stored river water is very large, which is very disadvantageous in terms of efficient water resources. In particular, the conventional technology for storing river water itself has a limitation in that it is difficult to cope with a frequently occurring drought and a recent increase in water demand.

As a solution to this, the groundwater is being considered as a method for securing groundwater. An important point in securing groundwater is to secure sufficient water storage capacity, that is, to secure sufficient groundwater storage space, and to use the groundwater storage space stably and continuously. , And to supply water smoothly. In particular, it is very important to design and construct the structure to have the required amount of water, that is, the groundwater storage capacity appropriate for the amount of water resources, and to optimize the management of the water supply. However, the currently proposed prior art is limited to simply install a structure that blocks the flow of groundwater in the ground, and there is a limitation that it is not enough to meet the above important conditions.

Republic of Korea Patent Publication No. 10-0895273 (2009. 05. 06. notification).

The present invention was developed to overcome the limitations of the prior art as described above, while creating a groundwater storage space that can secure enough groundwater to satisfy the required amount of water resources and to supply it stably and continuously, It is possible to efficiently design and build a groundwater storage capacity that fits the amount of resources, and to provide a groundwater storage space creation method and structure for optimizing operation and management through quantitative measurement and control by removing uncertainty. For the purpose of

In order to achieve the above object, in the present invention, the artificial porous medium reservoir (1) having a porous structure capable of holding the groundwater and the downstream side of the artificial porous medium reservoir (1) is installed in the groundwater flow Having a structure including a dam structure (2) for blocking, the groundwater storage space creation structure, characterized in that the groundwater storage space to form and store the groundwater by the artificial porous medium reservoir (1) Is provided.

In addition, in the present invention, in order to achieve the above object, as a method of creating a groundwater storage space to hold the groundwater by blocking the flow of groundwater, artificial porous medium reservoir having a porous structure capable of holding groundwater (1 ) Is installed in the ground and the dam structure (2) for blocking the flow of groundwater on the downstream side of the artificial porous medium reservoir (1); There is provided a groundwater storage space creation method, characterized in that by forming the groundwater storage space that can be stored by raising the groundwater by the artificial porous medium reservoir (1).

In the groundwater storage space creation structure and the groundwater storage space creation method using the same according to the present invention, the artificial porous medium reservoir (1), the dam structure (2) is a plurality of artificial porous block 10 consisting of a hexahedron In the upstream side of the can be built up in the vertical and horizontal direction, in particular, the artificial porous block 10, spherical particles having a uniform particle diameter made of synthetic resin is laminated in the longitudinal, transverse and vertical directions to each other By bonding, it may be fixed in the form of a cube.

Furthermore, in the above groundwater storage space composition structure and the groundwater storage space composition method using the same, when the spherical particles 12 are vertically stacked to form an artificial porous block, spherical particles of the upper and lower layers The center of may be located on the same vertical line. In particular, in the groundwater storage space composition structure and the groundwater storage space composition method using the same according to the present invention, the particle diameter of the spherical particles constituting the artificial porous medium block 10 is 4.75mm, the artificial porous medium block (10) ) May have a porosity of 47.65%.

In the present invention, the groundwater culture and the storage space is formed by the artificial porous medium reservoir composed of the artificial porous medium block, and the artificial porous medium block is composed of a spliced combination of spherical particles. Since the porosity of the porous medium block is changed and the particle size of the spherical particles can be variously determined as necessary, according to the present invention, by selecting the particle size of the spherical particles appropriately, the groundwater storage space composition structure to have the groundwater storage capacity suitable for the water resource It is very easy to design and construct a new design and to optimize the management of water supply.

In addition, in the present invention, since the spherical particles are made of synthetic resin and firmly bonded to each other to form a modular porous block by forming a modular form, they exhibit strong resistance to loss of particles due to erosion and the like. It is possible to consistently and consistently maintain the capacity and storage capacity of the groundwater that has been used, thereby consistently maintaining excellent pore structure and various parameters and abilities for storage capacity. Therefore, according to the present invention, in securing water resources by storing ground water, it is possible to perform quantitative measurement and control by removing uncertainty, and thus, there is an advantage of optimizing the operation and management of groundwater storage space construction structures. Exerted.

Furthermore, in the present invention, the pre-manufactured artificial media block is transported to the site, and the artificial porous medium is quickly stored in the ground through a simple operation in which a plurality of vertical and horizontal directions are assembled in the excavation part of the ground. It can be reclaimed and built, which can reduce the construction cost and shorten the construction period.

1 is a schematic perspective view of an embodiment of the groundwater storage space creation structure according to the present invention.
Figure 2 is a drawing substitute photograph of the actual product of the artificial media block that can be used to build the artificial media storage body according to the present invention.
3 is a schematic view for reference to show the laminated structure of the artificial porous medium block.
Figure 4 is a schematic side view for showing the laminated structure of the artificial porous block.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

Figure 1 is a schematic perspective view of an embodiment of the groundwater storage space composition structure 100 according to the present invention. As illustrated in the drawings, the groundwater storage space creation structure 100 according to the present invention includes an artificial porous medium reservoir 1 for storing groundwater therein, and the artificial porous medium reservoir 1. It is installed on the downstream side has a configuration including a dam structure (2) to block the flow of groundwater.

Firstly, the dam structure 2 is for preventing the flow of stored groundwater, and an impermeable dam provided for storing water in a river or the like can be used as the dam structure 2 of the present invention. In the present invention, the dam structure 2 may be an exposed downstream side as illustrated in FIG. 1, but may be constructed in a state in which the whole is embedded in the ground like an underground dam.

The artificial porous medium reservoir 1 is for storing the groundwater with the groundwater, and is constructed in contact with an upstream side of the dam structure 2, that is, an upstream side. In the present invention, the artificial porous medium reservoir 1 is embedded in an aquifer in which groundwater flows in a porous form to have a high porosity made of particles of uniform size made of synthetic resin. 2 is a drawing substitute photograph of the actual product of the artificial porous medium block 10 that can be used to build the artificial porous reservoir 1 according to the present invention, Figure 3 is a structure of the artificial porous medium block 10 4 is a schematic side view for showing a laminated structure of an artificial porous block.

In the present invention, the artificial medium storage body 1 includes a plurality of artificial porous medium blocks 10 made of a hexahedron, as shown in the drawing, in a vertical direction at an upstream side surface ("upstream side") of the dam structure 2. And masonry in the horizontal direction, the artificial porous medium block 10 has a high porosity due to a porous structure in which particles of uniform size made of synthetic resin are integrated. Specifically, by using synthetic resin, spherical particles 12 having the same size, that is, uniform particle diameter, are stacked vertically, vertically, and vertically, and bonded to each other to be fixed in the form of a cube to form an artificial porous medium block 10. ). In particular, as shown in Figs. 3 and 4, in the present invention, when the spherical particles 12 are stacked vertically, the centers of the upper and lower spherical particles 12 are positioned on the same vertical line. Therefore, the artificial porous medium block 10 formed by stacking spherical particles in such a manner has a very high porosity while having a porous structure in which pores exist between the spherical particles 12, and the pores are filled with water and stored. . That is, in the present invention, since the centers of the spherical particles 12 of the upper and lower layers are laminated and integrally bonded in the form of being positioned on the same vertical line as described above, the artificial medium block 10 is formed, and thus can be exhibited in natural soil. Very high porosity. Therefore, the porous substrate block 10 exhibits excellent groundwater storage and cultivation ability.

The porosity of the artificial porous medium block 10 is changed according to the particle diameter of the spherical particles 12 constituting the artificial porous medium block 10, and the particle diameter of the spherical particles 12 can be variously determined as necessary, such spherical shape By appropriately selecting the particle size of the particles it is possible to easily build the groundwater storage space composition structure 100 having a groundwater storage capacity corresponding to the required amount of water resources. That is, according to the present invention, it is possible to design and construct the groundwater storage space creation structure 100 so as to have a groundwater storage capacity suitable for the amount of water resources, and to perform the optimization of the management of the water supply very easily. It will be.

As mentioned above, the particle size of the spherical particles 12 constituting the artificial porous medium block 10 can be determined according to needs, but the particles are spliced and bonded as described above using the spherical particles 12 having a particle diameter of 4.75 mm. When the porous medium block 10 is formed, it exhibits a high porosity of about 47.65%, thereby exhibiting the most optimal groundwater storage and retrieval capacity.

In particular, in the artificial porous medium block 10 according to the present invention, since the spherical particles are made of synthetic resin and firmly bound to each other to form a modular form, the particles themselves are damaged due to erosion or the like. It shows strong resistance, so that the groundwater cultivation and storage capacity can be consistently maintained. That is, despite the continuous use and the passage of time, the artificial media block 10 will maintain a good porous structure consistently, and accordingly the storage capacity of the artificial media block 10 such as hydraulic conductivity, porosity, etc. Various parameters, stats, etc. are constantly maintained. Therefore, according to the present invention, in securing the water resources by storing the groundwater, it is possible to perform quantitative measurement and control by removing the uncertainty, thereby optimizing the operation and management of the groundwater storage space formation structure (100). The advantage of being present is demonstrated.

As described above, in the present invention, the pre-manufactured artificial porous media block 10 is transported to the site, and the artificial porous reservoir 1 is ground in a plurality of vertical and horizontal directions in the excavation portion of the ground. It is buried in. Therefore, it is possible to quickly build the artificial porous medium (1) through a simple operation, thereby exhibiting the effect of reducing the construction cost and construction period.

1: artificial porous medium
2: dam structure
100: groundwater storage space creation structure

Claims (5)

As a groundwater storage space creation structure to form the groundwater storage space that can be stored by raising the groundwater by the artificial porous medium reservoir,
Artificial porous medium reservoir having a porous structure that can hold groundwater,
It is installed on the downstream side of the artificial medium storage body has a configuration including a dam structure of impermeable structure to block the flow of groundwater,
In the artificial medium storage body, a plurality of artificial porous medium blocks formed of hexahedrons are built up vertically and horizontally in an excavation part of the ground at an upstream side of the dam structure, and are embedded in an aquifer through which groundwater flows.
The artificial media block is a plurality of spherical particles having a uniform particle diameter of the same size made of synthetic resin are laminated in the longitudinal, transverse and vertical directions and bonded to each other to be fixed in the form of a hexahedron. In the groundwater storage space composition structure, characterized in that the pre-fabricated so that the center of the spherical particles of the upper and lower layers are stacked on the same vertical line.
delete delete delete As a method of creating a groundwater storage space that can hold groundwater by blocking the flow of groundwater,
Transporting a pre-manufactured artificial media block to the site; And embedding a plurality of artificial media blocks in a vertical and horizontal direction in the excavation of the ground in an upstream side of the dam structure, and embedding the artificial porous media reservoir having a porous structure capable of holding groundwater in an aquifer through which groundwater flows. And installing a dam structure having an impermeable structure to block the flow of groundwater on a downstream side of the artificial medium reservoir, thereby storing groundwater by storing the groundwater by the artificial medium storage body. To form a space;
The artificial porous medium block is manufactured so that a plurality of spherical particles having a uniform particle size of the same size made of synthetic resin are laminated in the longitudinal, transverse and vertical directions and bonded to each other to have a fixed structure in the form of a cube. In the artificial porous medium block, the groundwater storage space creation method, characterized in that the center of the spherical particles of the upper, lower layers are manufactured to be located on the same vertical line.

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