KR20130042224A - Earthflow protection structure - Google Patents

Abstract

PURPOSE: A debris flow guard structure is provided to minimize a disaster and to prevent a road loss by guarding a road and drainage from debris flow. CONSTITUTION: A debris flow guard structure(100) comprises a foundation(110), a debris flow guard part, and a scour prevention part(130). The debris flow guard part comprises a pillar support member(121), a pillar member(122), a horizontal member(123), a wing member(124), and a fin member(125). The debris flow guard part blocks trees and rocks which are floated down by a heavy rain or flood. The scour prevention part is shaped into a plate and comprises a protrusion part(131), a running water outlet part(132), and a fixing part(133).

Description

Earthenware Protection Structures {EARTHFLOW PROTECTION STRUCTURE}

TECHNICAL FIELD The present invention relates to the field of civil engineering, and in particular, to a civil engineering protective structure.

In Korea, where the mountain area occupies more than 70% of the country, there are many steep slopes. In summer, the rainy season, typhoons and heavy rains destroy the steep slopes.

Particularly, in mountain range steep slopes, as the destroyed soil merges with the water of the valley, the rapid flow of soil flows, causing damage to downstream facilities and deterioration of arable land.

Soil flow includes soil, large rocks, and large amounts of driftwood as it flows down the valley, and this large rock mass and driftwood are concentrated at the leading edge of the stream, which has great destructive power.

Soils from the natural terrain travel long distances along the valleys, and if the slope is slow or there is a reservoir, they are deposited without significant damage.However, if there are facilities such as houses or roads in the path, they are completely destroyed or This will cause great damage in the form of a complete investment.

In particular, small roads and transverse drainage facilities are installed in the case of roads passing through mountain slopes in order to pass the flow rate from the valley to the lower part of the road. To completely block the cross-drainage and drainage, and secondarily, a large amount of soil and driftwood flow into the road to paralyze the road for a long time. Enormous damage occurs.

Conventional techniques for preventing such damage include 'Butrus Steel Sabang Dam' (Korean Patent Registration No. 10-0491444, 2005.05.17), etc., and Sabang Dam and Screen Dam are installed in a valley with a large river bed gradient. Digging the river bed and cutting both sides of the mountain to prevent landslides and sediment flow.

However, these technologies can be applied only to rivers, costly to install and maintain, and have many problems due to damage due to impact.

The present invention has been made to solve the above problems, and an object of the present invention is to propose a structure for preventing the loss of roads caused by the soil, and to minimize the disaster.

In order to solve the above problems, the earthwork protection structure 100 according to the present invention is basically a base 110; Earthwork protection unit 120 formed on the base 110; It is configured to include; scour prevention portion 130 extending inwardly of the base 110.

The scour prevention part 130 is preferably formed in a plate-like structure.

It is preferable that the protrusion 131 is formed on the upper surface of the inner end of the scour prevention part 130 so that the flowing water 2 flows in the rain.

The outer surface of the protrusion 131 is preferably formed to be inclined upward.

Since the plurality of protrusions 131 is formed to be spaced apart from each other, it is preferable that the usual running water outlet 132 is formed between the plurality of protrusions 131.

It is preferable that the fixing part 133 protrudes downward from the inner end of the scour prevention part 130.

The inner end of the scour prevention portion 130 is preferably supported by the weight body 134.

The earthwork protection unit 120 is a pillar member support portion 121 formed on the base 110 so as not to be immersed in the water level of the usual running water (2); A pillar member 122 installed on the pillar member support part 121; It is preferable to include a; horizontal member 123 is installed to be supported by the pillar member 122.

The earthwork protection unit 120 may further include wing members 124 formed on both sides of the upper portion of the base 110 so as to support an end portion of the horizontal member 123.

The earthwork protection unit 120 is formed in the upper center of the base 110 to support the end of the horizontal member 123, and a pin member 125 formed between the plurality of pillar members 122; It is preferable to further include.

The present invention provides a structure for the protection of the earth and stone to prevent the loss of the road (1) due to the soil and minimize the disaster.

Figure 1 below shows an embodiment of the earth-to-earth protection structure according to the present invention,
1 is a perspective view of an earthworm protection structure.
Figure 2 is a cross-sectional view of the earthwork protection structure is installed.
Figure 3 is a perspective view of the state of the earth protection structure is installed.
4 is a side view of the earthworm protection structure.
5 is a side view of the scour prevention part.
Figure 6 is an enlarged perspective view of an embodiment of the pillar member.
7 is an enlarged perspective view of an embodiment of a pin member.

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

As shown in Figure 1 below, the earthwork protection structure according to the present invention is basically a foundation (110); Earthwork protection unit 120 formed on the upper portion of the base 110; It is formed in a structure including; scour prevention portion 130 formed to extend inwardly of the base 110 (Fig. 1).

Conventionally, when the soil 10 occurs in the valley part 20 near the road 1, the road 1 function may be paralyzed or the facility may be damaged by blocking the crossing drainage facility 20 below the road 1. There was this.

The present invention as a way to solve this problem, to prevent the loss of the function of the road (1) by protecting the road (1) and drainage from the earth (10), the earth and stone protection structure (100) can minimize the disaster ) (Figs. 2 and 3).

Until now, the present invention can be regarded as a large environmental and economic contribution in terms of preventing the disaster in advance, compared to focusing on recovery rather than prevention as a countermeasure against mountain disasters.

Earthwork protection unit 120 is the first member in contact with the soil in the structure, and serves to block trees and rocks floating by heavy rain or flood (Fig. 1, 4).

The scour prevention part 130 is a member installed to prevent the earthwork protection unit 120 from overturning or sliding due to scour phenomena caused by suspended soil or trees introduced from the slope surface (FIG. 4, 5).

In order to prevent the scour phenomenon inside the scour prevention portion 130 due to the running water (2) in the rain, the projection 131 to the height above the height of the usual running water (2) on the upper surface of the inner end of the scour prevention portion (130) It forms so that the flowing water 2 will overflow (FIG. 5).

The overflowed flowing water 2 may fall farther inward than the inner end of the scour prevention portion 130, thereby preventing scour of the inner adjacent portion of the scour prevention portion 130.

The protrusion 131 may be any structure as long as it satisfies the above function. However, when the protrusion 131 has a structure in which the outer surface is inclined upwardly, the falling point of the overflowed flowing water 2 may be formed farther. .

Since the plurality of protrusions 131 are formed to be spaced apart from each other, the flow-through outlet 132 is usually formed between the plurality of protrusions 131 (FIG. 1).

The usual flow of water outflow portion 132 allows the flow of water 2 to be discharged at the normal water level, thereby preventing the accumulation of water in the scour prevention portion 130.

On the inner end of the scour prevention portion 130, the fixing portion 133 is formed to protrude downward (Fig. 5).

The fixing part 133 is fixed to the valley protection structure 100 to the valley portion 20, and the lower end of the structure is not eroded by the scour phenomenon to increase the structural stability.

In addition, in order to prevent the scour phenomenon caused by the soils 10 from occurring at the inner end of the scour prevention portion 130, a weight body 134 is installed to be supported (FIG. 5).

As the weight body 134, crushed stone, a gabion, etc. can be used.

Earthwork protection unit 120 is a pillar member support portion 121 formed on the base 110, so as not to be immersed in the water level of the usual running water (2); A pillar member 122 installed on the pillar member support 121; It is composed of; a horizontal member 123 installed to be supported by the pillar member 122 (Fig. 1).

Here, the material of the base 110 and the pillar member support portion 121 may use concrete, and the materials of the pillar member 122 and the horizontal member 123 may use steel or synthetic resin.

In this case, when the earthwork 10 occurs, since only the pillar member 122 and the horizontal member 123 are damaged in the present structure, there is an advantage in that it is easily replaceable and easy to maintain.

In addition, there is an advantage that can be suitably installed by adjusting the number and spacing of the pillar member 122 and the horizontal member 122 according to the environment and construction conditions of the valley portion 20 to be installed this structure 100.

The pillar member support portion 121 serves to prevent the pillar member 122 from being submerged in water at the level of the running water 2, thereby preventing corrosion of the pillar member 122 (FIG. 6).

The guard rail may be used as the horizontal member 123.

The earthwork protection unit 120 may have wing members 124 formed on both sides of the upper portion of the base 110 so as to support an end portion of the horizontal member 123 (FIGS. 1 and 4).

The wing member 124 is preferably formed in a concrete structure together with the base 110 in terms of stability.

A pin member 125 may be formed between the upper center of the base 110 and the plurality of pillar members 122 to protrude to a height exceeding a height of a normal flow rate (FIG. 7).

The pin member 125 basically functions to support the end of the horizontal member 123.

Further, the pin member 125 is installed when the valley is wide, thereby shortening the portion supported by the horizontal member 123 to improve structural stability.

The pin member 125 is preferably formed in a concrete structure together with the base 110 in terms of stability.

That is, as described above, the wing member 124 and the pin member 125 are integrally formed together with the foundation 110 as a concrete structure, and thus, when the earthwork 10 occurs, the pillar member 122 and the horizontal member ( Only 123) can be said to be a structure that yields.

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 in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1 road 123 horizontal member
2: flowing water 124: wing member
10 earthwork 125 pin member
20: crossing drainage 130: scour prevention part
100: earthwork protection structure 131: protrusion
110: foundation 132: usual runoff
120: earthwork protection unit 133: fixed part
121: pillar member support 134: weight
122: pillar member

Claims (10)

Foundation 110;
Earthwork protection unit 120 formed on the base 110;
Scour prevention portion 130 extending inwardly of the base 110;
Earthwork protection structure 100, characterized in that it comprises. The method of claim 1,
The scour prevention part 130 is a civil protective structure 100, characterized in that the plate-like structure. The method of claim 2,
On the upper surface of the inner end of the scour prevention portion 130, the earthwork protection structure 100, characterized in that the protrusion 131 is formed so that the flowing water (2) in the rain. The method of claim 3,
The earth surface protection structure 100, characterized in that the outer surface of the protrusion 131 is formed to be inclined upward. The method of claim 3,
The protrusions 131 are formed in plural so as to be spaced apart from each other, earthwater protection structure (100), characterized in that the usual flow of water outlet 132 is formed between the plurality of protrusions (131). The method of claim 2,
The earthenware protection structure 100, characterized in that the fixing portion 133 is protruded to the inner end of the scour prevention portion 130. The method of claim 1,
The inner end of the scour prevention portion 130 is earthwork protection structure 100, characterized in that supported by the weight body (134). The method of claim 1,
The earthworm protection unit 120 is
Pillar member support portion 121 formed on the base 110, so as not to be submerged in the water level of the usual running water (2);
A pillar member 122 installed on the pillar member support part 121;
A horizontal member 123 installed to be supported by the pillar member 122;
Earthwork protection structure 100, characterized in that it comprises. 9. The method of claim 8,
The earthworm protection unit 120 is
To support the end of the horizontal member (123), the earthwork protection structure (100), characterized in that it further comprises; wing members (124) integrally formed on both upper sides of the base (110). 10. The method of claim 9,
The earthwork protection unit 120 is integrally formed at the upper center of the base 110 so as to support an end of the horizontal member 123, and the pin member 125 formed between the pillar members 122. Earthwork protection structure (100), characterized in that it further comprises.

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