KR20120040878A - Erosion control dam - Google Patents

Abstract

PURPOSE: A debris barrier having an earth control function is provided to stably drain water cut off by the debris barrier by forming drainage paths having different diameters in multi stages. CONSTITUTION: A debris barrier having an earth control function comprises a central panel(11), left and right panels(12), multiple driftwood blocking bars(13), and drainage paths(20). The driftwood blocking bars are composed of stainless steel pipes and are vertically positioned at the top surface of the central panel. The drainage paths are horizontally formed in the central panel in multi-stages. Pipes having different diameters penetrate through the drainage paths to control the draining amount of water.

Description

Four-sided dam with its own soil control {Erosion Control Dam}

The present invention relates to a four-sided dam having its own soil control function, to form a multi-stage drainage pipe having a different diameter at different heights in the concrete structure constituting the four-sided dam in the transverse direction of the flow path to the soil level blocked by the four-sided dam and sedimentation degree It can be selectively blocked or passed according to this, and through this, even though the landslides from upstream forest due to landslides in the heavy rains are selectively penetrated or blocked, the soils can be prevented much more effectively than the existing four-sided dams of the same size. Earth and sand are related to environmentally friendly four-sided dams with improved disaster prevention functions that contribute to the stability of downstream stream ecosystems.

Sabang Dam is installed in forests upstream of mountain valleys, soils, and driftwood, where there is a risk of landslides during heavy rains, and prevents low-rises and driftwoods by preventing interstitial landslides and rapid loss of downstream soils. Tree branches, etc., are installed to prevent the floating of rivers by floating the downstream and hanging on the bridge to block the waterway.

These four-sided dams are constructed of all-round four-sided dams carrying stones (stones), concrete four-sided dams made of concrete, and box-shaped unit assemblies made of steel in the form of dams, and then loaded with stones to increase weight and drainage. Steel dams are used to make them effective.

However, as all the above-mentioned all-round dams have to work to load stones, there is a problem that a large number of people and a lot of time are required to transport and load the stones, and the concrete four-side dams bring about disconnection between the upper and lower sides of the river as well as the landscape damage. By blocking beneficial organic substances and small particles of soil, they are adversely affecting the health of the river ecosystem.

In addition, the four-sided steel dams made of unit assemblies are subjected to strong resistance from landslides in the upstream area, and have strong resistance, or when the driftwood and fallen leaves caught in the floodwater are caught in the unit assembly, the resistance of water and soil is increased, causing the unit assembly to collapse. There was concern.

Accordingly, conventionally, buttresses have been constructed to improve the problems of the four-sided dams, and such buttressed four-sided dams are long-cast concrete structures from the bottom of valleys or rivers, and the upper sides of the concrete structures. It is made of steel and embedded in a long and has a structure consisting of a support body formed horizontally at a predetermined interval by the coupling structure of the steel, and thus the soil structure upstream of the valley or river by the support of the concrete structure and the support is a valley or It is to prevent the loss downstream of the river.

However, in the case of the above-described buttress four-side dam, since a separate drainage flow path is not formed in the concrete structure for controlling the soil amount, water and soil are designed to flow only when the installation height of the concrete structure is exceeded. Due to the sedimentation and deposition of organic materials in mountain valleys, the water quality of the valleys was degraded, and the permeability of selective or permeable organic soils was not possible due to the increase in the yield of valleys.

The present invention is to solve the conventional problems as described above, by forming a multi-stage drainage flow path having a different diameter at the four sides dam made of a concrete structure in the transverse direction, the valley water blocked by the four sides dam water level Stable adjustment to change. Its main purpose is to allow drainage.

Another object of the present invention is to improve the soil control amount, which is an inherent function of the four-sided dam compared to the four-sided dam of the same size by selectively controlling the permeation of soil according to the size of the pipe which is buried during sudden soil inflow due to sudden ground erosion and landslide occurrence from the upstream forest. It is to provide eco-friendly dams with improved disaster prevention functions.

Another object of the present invention is to improve the disaster prevention function that contributes to the stability of the downstream river ecosystem by restricting and selectively passing only the soil of small particles, which prevented the rapid inflow of soil from the upstream forest during heavy rains. It is to provide environmentally friendly dams.

The four-sided dam for the present invention for achieving the above object, as a concrete structure constitutes a four-sided dam in the center panel and the left and right edge panel for blocking the soil, and install a plurality of driftwood blocking rods on the top of the center panel, In order to stably control the drainage and the earth and sand according to the change of the level of the water level or the height of the sedimentary deposit, the drainage passage through which the pipe of the pipe increases from the bottom to the top increases in the transverse direction.

According to an aspect of the present invention, the multi-stage drainage passage includes a plurality of first flow passages arranged at the bottom of the center panel, a plurality of second flow passages arranged at the top of the center panel, and the first and the second flow passages. And a plurality of third flow passages arranged between the flow passages.

More preferably, the diameter of the first flow path is configured to be smaller than the diameter of the third flow path so as to control the amount of sediment permeation in a state where the soil deposition height blocked by the central panel is low, the diameter of the third flow path is It is configured to be smaller than the diameter of the second flow path to control the soil permeation amount in a state in which the soil deposition height blocked by the center panel is in the middle level, and the diameter of the second flow path is high in the soil deposition height blocked by the center panel. The larger the diameter of the third flow path to control the soil permeation amount in the configuration.

According to another aspect of the present invention, the water cushion is formed of the side wall portion and the bottom portion of a predetermined height so as to guide the soil and valleys transmitted through the drainage flow passage to the downstream side from the edge panel of the concrete structure to the downstream side.

According to another aspect of the present invention, the bottom portion of the wire mesh is formed, and the front side of the water cushion, the flow rate of the valley water and sediment drained through the drainage flow path is adjusted to guide the stone and gravel downstream The mixed flow rate control unit is configured.

As described above, the present invention is to form a multi-stage drainage flow passages having different diameters at different heights in a four-side dam made of a concrete structure, so that the valley water blocked by the four-side dams can be stably drained according to the water level change. Even if sudden soil erosion and sudden landslides occur during a landslide in the forest, the soils can be selectively permeated according to the size of the purchased pipe so that the low sand function, which is a unique function of all four dams, can be stably secured. Will be.

In addition, the four-sided dam of the present invention is expected to be useful to provide an environmentally friendly four-sided dam to maintain the integrity of the downstream river ecosystem by having a control function of the earth and sand as usual.

1 is a perspective view showing a structure of a four-sided dam in accordance with an embodiment of the present invention.
Figure 2 is a plan view showing a structure of a four-sided dam in accordance with an embodiment of the present invention.
Figure 3 is a side cross-sectional schematic view of the discharge state of the valley water or earth and sand in the low sediment deposition height of the four sides dam in an embodiment of the present invention.
Figure 4 is a side cross-sectional schematic view of the discharge state of the valley water or soil in the state of the sediment deposition height of the four sides dam in an embodiment of the present invention.
Figure 5 is a side cross-sectional schematic view of the discharge state of the valley water or the soil in the high sediment deposition height of the four sides dam in an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a structure of a four-sided dam in accordance with an embodiment of the present invention, Figure 2 is a plan view showing the structure of a four-sided dam in accordance with an embodiment of the present invention.

1 and 2, the four-sided dam in accordance with an embodiment of the present invention is a concrete structure consisting of a center panel 11 and left and right edge panels 12 for blocking the soil, the center panel 11 The top surface of the plurality of driftwood blocking rods 13 made of stainless steel pipe is configured to stand vertically.

In addition, the front side is formed of a sidewall portion 14a and a bottom portion 14b from the edge panel 12, which is the concrete structure, by constructing a flow path 14 for guiding the flow of the valley water, and the bottom portion 14b. The wire mesh 14c is constructed, and the front side of the water cushion 14 is configured with a flow rate control unit 15 in which stones and gravel are mixed and stacked to control the flow rate of the valley water.

At this time, the central panel 11 has a multi-stage drainage passage 20 through which pipes of varying diameters can be stably adjusted according to the water level change of the valley water, and the drainage passage 20 has The first, second, and third flow passages 21, 22, and 23 are included.

The first flow path 21 is arranged at the lowermost side of the central panel 11, the diameter of the valley and the small particles in the state of the sediment height of the soil is blocked by the central panel 11 is low It is configured to be smaller than the diameter of the third flow path 23 so that only the soil is transmitted.

The second flow passage 22 is arranged on the uppermost side of the center panel 11, the diameter of the first flow path 21 and the third flow path 23 of the soil is blocked by the central panel (11) ) And larger than the diameters of the first and third flow paths 21 and 23 so as to penetrate to amber stones (diameter 30 to 40 cm) in a state where the sedimentation height of the large particles remaining after the large particles are high.

The third flow path 23 is arranged in plurality between the first and second flow paths 21 and 22, and the diameter of the third flow path 23 is about the first flow path 21 of the soil which is blocked by the center panel 11. It is configured to be larger than the diameter of the first flow passage 21 and smaller than the diameter of the second flow passage 22 so that the strong sand 10 to 30 cm may be transmitted in a state where the medium-sized sediment deposition amount that does not pass through the medium level.

By the above configuration, the four-sided dam with the soil control function according to an embodiment of the present invention, in the state in which the four-sided dam is installed in the upstream of the valley or river to prevent the occurrence of landslides and the loss of soil as shown in the accompanying drawings. First, plants such as large and small trees, vinyl and plastic wastes are prevented from flowing downstream by a plurality of driftwood blocking rods 13 made of stainless steel pipes installed on the upper surface of the center panel 11 made of a concrete structure. On the other hand, the valley water is guided to the downstream side through the water cushion 14 consisting of the side wall portion 14a and the bottom portion 14b of a predetermined height beyond the center panel (11).

In the present invention, when the height of the sediment deposition in the valley is located below the central panel 11 (low water level), the first of the drainage passages 20 arranged in the transverse direction from the lower side of the central panel 11. Since the flow path 21 is formed with a very small diameter, only the part of the small-sized soil which flowed off by the said center panel 11 permeate | transmits downstream through the said 1st flow path 21 with a small diameter. Thus, the health of river ecosystems can be maintained.

When the soil is introduced from the upstream of the valley and the soil is deposited, when the height is located up to the middle point of the central panel 11, a plurality of water drains are arranged in the transverse direction at the lower side and the middle side of the central panel 11. Only part of the soil which is blocked by the central panel 11 by the first and third flow paths 21 and 23 of the flow path 20 is moved downstream through the first and third flow paths 21 and 23. Some permeation is made and stable soil control is achieved.

In other words, since the diameter of the third flow path 23 is larger than that of the first flow path 21, the diameter of the third flow path 23 is transmitted to the downstream side through the third flow path 23 as well as the first flow path 21. As the amount of earth and sand increases a little, the sediment height of the earth and sand blocked by the center panel 11 is controlled, and the earth and sand of the intermediate particles can be permeated.

On the other hand, when the height of the sediment introduced from the upstream side is very high and the height is located up to the upper point of the center panel 11 (full water level), the lower side, the middle side and the upper side of the center panel 11 is transversely The first, third, and second flow passages 21, 23, and 22 of the drainage passages 20 arranged in a plurality of soils are blocked by the central panel 11, and thus the first and third, Stable earth control can be achieved while being distributed and transmitted downstream through the flow path (21) (23) (22).

The diameter of the third flow path 23 is configured to be larger than the diameter of the first flow path 21, and the second flow path 22 is configured to be larger than the diameter of the third flow path 23. As the amount of soil to be transmitted downstream through the third and second flow paths 23 and 22, as well as the first flow path 21, is slightly higher, the amount of permeation of the soil blocked by the center panel 11 is appropriately maintained. It can be adjusted, and thus it is possible to prevent the flooding over the central panel 11 due to the heavy rain in the event of landslides caused by the heavy rain, and further to the flood waters overflowing the central panel 11 It will be possible to prevent problems caused by flood damage on the downstream side and the leakage of soil.

In addition, even if the soil and valleys blow rapidly and flood the central panel 11, the flow rate of the overflowing valley water is controlled by the water cushion 14 located on the front side of the central panel 11. It was.

The water cushions constantly guide the flow of the valley water draining or flooding from the bottom portion 14b on which the side wall portion 14a and the wire mesh 14c of the predetermined height constituting the water cushion 14 are downstream. The flow rate of the valley water flowing downstream is controlled by the flow rate adjusting unit 15 formed by mixing and stacking stones and gravel on the tip side of 14, and the flow of the valley water is delayed to the downstream side. It is possible to prevent casualties due to torrential rains while securing time for those who live in the country to evacuate quickly.

Hereinafter, the present invention is not limited to the above specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes are within the scope of the claims.

11; Center panel 12; Edge panel
13; Driftwood bar 20; Drainage
21; First flow path 22; 2nd Euro
23; 3rd Euro

Claims (5)

As a concrete structure, the four-sided dam is formed by the center panel and the left and right edge panels for blocking the soil, and a plurality of driftwood blocking rods are installed on the top of the center panel.
The central panel is characterized in that the multi-stage drainage passage through the pipe that increases the diameter of the pipe from the bottom to the top to stably control the drainage and soil in accordance with the change of the water level of the valley or the sedimentation height of the sediment Four sides dam with its own soil control. The method of claim 1, wherein the multi-stage drainage passage,
A plurality of first flow passages arranged at the bottom of the center panel, a plurality of second flow passages arranged at the top of the center panel, and a plurality of third flow passages arranged between the first and second flow passages. Four-sided dam with its own soil control, characterized in that configured to. The method of claim 2,
The diameter of the first flow path is configured to be smaller than the diameter of the third flow path so as to control the soil permeation amount in a state of low soil deposition height blocked by the central panel,
The diameter of the third flow path is configured to be smaller than the diameter of the second flow path to control the soil permeation amount in the state that the height of sediment deposition blocked by the central panel is a middle level,
The diameter of the second flow path is a four-sided dam having a self-soil control function, characterized in that configured to be larger than the diameter of the third flow path to control the amount of soil penetration in the state of the high soil deposition height blocked by the central panel. The method of claim 1,
The four sides dam with its own soil control function characterized in that to form a water cushion consisting of the side wall portion and the bottom portion of a predetermined height to guide the valley water drained through the drain flow path to the downstream side from the edge panel that is the concrete structure. The method of claim 4, wherein
The bottom portion forms a wire mesh, and on the front side of the water cushion, the flow rate of the valley water drained through the drainage flow path is controlled so that the stone and gravel are mixed and laminated so that the flow rate control unit is laminated. Four sides dam with its own soil control.

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