KR101350945B1 - micro gabion debris barrier - Google Patents

Abstract

Disclosed is a micro-gabion four-sided dam that can build a light weight small dam through the dam body having excellent water permeability, and prevent the dam from collapsing due to additional driftwood and rocks. The micro-gabion sabang dam according to the present invention is manufactured in the form of a block filled with natural stone or crushed stone in the grid of steel to build a first dam by stacking these blocks in a straight line, and to prevent the collapse of the first dam on the rear surface of the first dam. Multiple high tension cables are installed extending on both sides. At this time, the second dam body may be further stacked behind the first dam body in the form of a block filled with natural stone or crushed stone in the mesh grid, similar to the structure of the first dam body, and the second dam body may be constructed to have an arch shape in the direction of the first dam body. . In addition, a gabion fixing column is formed at the left and right sides of the first dam body, and a cable support is formed again at the front of the gabion fixing pillar, and the high tension cable is fixed to the cable support after changing the direction through the gabion fixing pillar.

Description

Micro gabion debris barrier

The present invention relates to a four-sided dam, and more particularly to a micro-gabion four-sided dam to filter foreign matters such as waste wood and earthenware while smoothly flowing the water by constructing the dam as Gabion.

Four-sided dams are dams installed to store soil or gravel flowing out from desolate mountainous areas or valleys. These dams include dams for storing and controlling the outflowed soil from mountain valleys to control and control the amount of outflowed soil to downstream streams, and storage of sediments to slow the flow of rivers, reducing the amount of runoff. There is a dam to prevent erosion.

In valleys with large riverbeds, rapids dug up riverbeds and shatter both sides of the mountain to cause landslides, preventing mudslides and depositing gravel on the upstream side to stabilize riverbeds with gentle sales.

Since these four dams are not reservoir dams, an appropriate number of drains are installed to extract the water behind the dam to reduce the pressure on the dam. This creates a layer of solid soil deposits behind the dam, creating a new mooring bottom surface with low water content on it. Therefore, if a dam is cascaded in a valley, the riverbed becomes higher and the river valley becomes stable.

As the existing four-sided dams, large-scale gravity dam-type structures using self-weight using concrete, steel, and natural stone were generally applied.

Therefore, in the case of the existing dam type, problems such as deposition of the rear part may occur, and construction cost due to large structures is excessively required. In addition, in the case of the butrus type that is widely used to prevent driftwood, there was a problem of damaging the natural landscape of the river valley.

In order to solve the above problems, the Republic of Korea Utility Model Registration No. 175112 (2000.03.15. Announcement) has been disclosed "a four-sided dam structure using steel materials". In the prior art as shown in Figure 1 in building the four-side dam (1) to build a block-type using a steel material 60, was built by putting the inner filling material (2) such as crushed stone in the steel material (60). Therefore, water flows naturally through the steel material 60 and the inner filling material 2, and serves to prevent rocks and driftwood.

However, even though the steels are firmly combined, they are not free from the structure that is constructed in a block-type structure, which causes a problem of being easily collapsed by pressures such as water currents, earth and driftwood.

The present invention has been made to solve the above problems, it is possible to build a lightweight small dam through the dam body excellent in the permeability effect, and micro gabion that can prevent the dam from collapsing due to additional driftwood and rocks It is to provide four dams.

The present invention to solve the above problems,

In a four-sided dam having a base portion and a dam body portion,

The dam part is made of block type filled with natural stone or crushed stone in the grid of steel plate, and the blocks are stacked to form a first dam body, and on the rear surface of the first dam body, a plurality of high tension cables are provided to prevent the collapse of the first dam body. It provides a micro gabion four-sided dam, characterized in that installed to extend on both sides.

At this time, the second dam body may be further stacked behind the first dam body in the form of a block filled with natural stone or crushed stone in the mesh grid, similar to the structure of the first dam body, and the second dam body may be constructed to have an arch shape in the direction of the first dam body. .

In addition, the gambion fixing column is formed on the left and right sides of the first dam body, and the cable support is formed on the front of the gabion fixing pillar again, and the high tension cable is fixed to the cable support after changing the direction through the Gabion fixing pillar.

In addition, it is possible to insert and install a fish pipe of a circular pipe in the clearance between the first dam body and the second dam body to enable the small scale and movement of the fish.

In addition, support portions may be formed at both ends of the second dam body, and the arc-shaped steel may be reinforced to the second dam body.

Conventional four-sided dam mainly used two types of heavy concrete dams to trap water and soil to prevent downstream damage and buttressless dams using steel materials to prevent driftwood, but the present invention uses the Gabion four-sided dam reinforced with high-tension cable This makes it possible to reduce the weight of small scale dams.

In addition, the dam body having excellent water permeation effect can effectively classify the flows, rocks, and suspended solids of the soil, thereby reducing the load to be in charge of the dam, thereby making it possible to reduce the weight of the dam body.

In addition, it is possible to provide an eco-friendly and economical method by arranging natural stone, which is a risk factor of the valley part, as a filling material.

1 is a view showing a four-sided dam in accordance with the prior art,
2 is a perspective view showing a four-sided dam in accordance with the present invention,
3 is a view showing a block that is a unit unit of the dam body shown in FIG.
Figure 4 is a view from above of a four-sided dam in accordance with the present invention.

Hereinafter, with reference to the accompanying drawings will be described a micro gabion four-sided dam in accordance with a preferred embodiment of the present invention.

Referring to FIG. 2, the micro gagabion four-sided dam 100 according to the present invention includes a base 110, a dam body 120, and an auxiliary support 130.

First, the base 110 is composed of a gabion mattress utilizing the natural stone of the valley as a filling material, which aims at smooth drainage of river water. In addition, the material cost can be reduced by simultaneously arranging sewers and securing natural stones.

The dam body part 120 is comprised of the 1st dam body 121 built in the front in the form of a date, and the 2nd dam body 122 built in the back in the form of an arch. The dam body 120 is composed of a Gabion iron plate network filled with natural stone and crushed stone, it is possible to secure structural stability through the field welding of the iron plate network. In particular, since the second dam body 122 is arched toward the straight first dam body 121, the second dam body 122 may cope with pressures such as rocks and driftwood on the first dam body 121, such as a truss structure. It is possible to prevent the collapse of the.

As shown in FIG. 3, the dam body 120 is a block form filled with natural stone or crushed stone in the rectangular steel plate network 120a, and these are stacked in succession up, down, left and right. Of course, in order to further secure the structural stability of the dam body 120, it would be better to build each grid plate (120a) by stacking.

If the second dam body 122 serves to support the rear of the first dam body 121, the first dam body 121 is provided with a high tension cable to prevent collapse of itself. That is, on the rear surface of the first dam body 121, as shown in FIG. 4, a plurality of rows of high tension cables 130 are vertically installed while extending in the horizontal direction, and both ends of the high tension cables 130 are connected to the first dam body ( It is fixed to the gabion fixing column 140 is built on the left and right sides of the 121.

Gabion fixing pillar 140 is formed on the left and right sides of the first dam body 121 or the same or a little higher than the first dam body 121, another cable support 141 in front of the Gabion fixing pillar 140 is more Is formed, the high-tensile cable 130 is inserted through the Gabion fixing pillar 140 is fixed to the cable support 141. When a load is applied to the first dam body 121 and a tensile force is generated in the high tension cable 130, the Gabion fixing pillar 140a primarily generates a repulsion against the tensile force of the high tension cable 130, and in the cable support 141. Secondly, a repulsion occurs due to the relationship with the Gabion fixing column 140, thereby preventing the double tension while distributing the tensile force of the high-tension cable 130 in a direction.

Gabion Sabang Dam 100 according to the present invention by inserting the fishing pipe 150 of the circular pipe in the water flow direction in the clearance space between the first dam body 121 and the second dam body 122 small and moving the fish It may also be possible.

In addition, separate support parts may be required on both side cross-sections of the second dam body 122, or when the second dam body 122 is installed on a large scale, it may be further reinforced with an arcuate steel.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. .

100: micro gabion sabang dam
110: base portion 120: dam body portion
120a: steel plate network 121: first dam body
122: second dam body 130: high tension cable
140: Gabion fixed column 141: cable support
150: fishing

Claims (5)

In the four-sided dam having a base 110 and the dam body 120,
The dam body 120 is made of a block-type filled with natural stone or crushed stone in the iron plate network (120a) by stacking the blocks to form a first dam body 121, on the rear surface of the first dam body 121 A micro-gabion four-sided dam in which a plurality of high tension cables 130 are installed to extend to both sides to prevent the collapse of the first dam body 121, and the structure of the first dam body 121 is located behind the first dam body 121. Similarly, the second dam body 122 is piled up in a block type in which natural stone or crushed stone is filled in the iron plate network 120a, and the second dam body 122 is constructed to have an arc shape in the direction of the first dam body 121, Gabion fixing pillars 140 are formed at the left and right sides of the first dam body 121, and a cable support 141 is formed at the front of the Gabion fixing pillars 140 to fix the Gabion fixing member. The cable finger after changing the direction through the pillar 140 It is fixed to the base 141, inserts the fishing vessel 150 of the circular pipe in the free space between the first dam body 121 and the second dam body 122, and both side ends of the second dam body 122 There is a support is built, the micro-gabion four sides dam, characterized in that the arched steel is reinforced to the second dam body (122). delete delete delete delete

Images