KR20140064105A - Structure for preventing debris flow - Google Patents

Abstract

The present invention relates to a structure for preventing a disaster caused by a sand and soil avalanche. The structure for preventing a disaster caused by a sand and soil avalanche includes a control pile (100) installed on the ground to change the flow of the sand and soil avalanche and a protection unit (200) including a net member (220) connected to a plurality of support piles (210) so that the sand and soil avalanche and a plurality of support piles installed on the lower ground than the control pile (100) are hung on the net member (220). Therefore, the present invention minimizes the disaster by protecting structures and residences in the lower side of a mountain from the sand and soil avalanche.

Description

{STRUCTURE FOR PREVENTING DEBRIS FLOW}

Field of the Invention The present invention relates to an environmental field, and more particularly, to a structure for preventing disasters caused by debris.

Debris flow refers to the phenomenon that a mountain slope, which has been subjected to weathering for a long time, is saturated with water due to heavy rains or rainy season, and its weight can not sustain the frictional force.

In other words, it is a kind of landslide occasionally occurring on the slope of slope in the middle age.

These debris flow not only has a catastrophic effect on residences and civil engineering structures (roads, etc.) located in the lower part of the mountain, but also that the bottom rocks appear in places where debris flows, .

Conventional techniques for preventing such problems include 'multifunctional four-way dam and its construction method' (Korean Patent Registration No. 10-0560986, 2006.03.08), 'Bertrus Steel Sambang Dam' (Korean Patent Registration No. 10-0491444,2005.05. 17). Sambang dam and screen dam were installed in a valley with a large riverbed, which prevented the phenomenon of torrential landslides caused by torrential riverbed digging and cutting off both sides of the mountain.

However, these technologies are applicable only to rivers, they require a lot of installation and maintenance costs, and have a problem of long-term durability due to high damage due to impact.

It is an object of the present invention to provide an anti-disaster structure for preventing earthquake-related disasters by minimizing disasters by protecting residences and structures on the lower side of the mountainside from debris.

In order to solve the above problems, the present invention provides a structure for preventing disasters caused by a debris flow (1), comprising: a control pile (100) installed on the ground to switch the flow of the earths stone (1); A plurality of support piles 210 provided on the downstream side of the control pile 100 and a guard member 220 including a net member 220 coupled to the plurality of support piles 210, (200) of the earthquake-proof structure according to the present invention.

The plurality of support piles 210 may further include a left support pile 211, a right support pile 212 and an intermediate support pile 213 to which the net member 220 is coupled.

The protective portion 200 is provided in a plurality of directions along the flow direction of the earth Stone 1 and the net size of the net member 220 of the upstream side guard portion 200a among the plurality of guard portions 200 It is preferable that the net size of the net member 220 of the downstream side protective portion 200b is small.

Preferably, the at least one support pile 210 of the plurality of support piles 210 is provided with a spreading permission means 300 for allowing the spreading of the net member 220 by the earth stone 1 to be limited Do.

The spreading permission means 300 includes a body 310 installed on the support pile 210; A rod member 320 inserted into the body 310; And a spring member 330 surrounding the outer surface of the rod member 320. The mesh member 220 may be supported on the outer surface of the spring member 330 so as to surround the spring member 330. [

One or both ends of the net member 220 may be separated from the unfolding means 300 when the unevenness of the earth stone 1 is applied to the net member 220 by a predetermined load or more.

It is preferable that the net member 220 is formed of an elastic material so as to be spread toward the downstream side when the earth stone 1 flows.

It is preferable to further include a sensing sensor for sensing that the net member 220 supported by the unfolding means 300 is unfolded when inflow of the underside 1.

And a sensing sensor for sensing a state in which the net member 220 is completely disengaged from the unfolding means 300.

The present invention proposes an anti-disaster structure for the prevention of disasters by protecting residences and structures on the underside of debris from debris.

1 shows an embodiment of a disaster prevention structure according to the present invention,
1 is a perspective view of a first embodiment;
2 is a perspective view of a second embodiment;
3 is a perspective view of the third embodiment.
Fig. 4 is a perspective view of a first embodiment of the spread permitting means; Fig.
5 is a cross-sectional view of a second embodiment of the spreading means;
6 is a first use state view of the third embodiment;
7 is a second use state diagram of the third embodiment;

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

As shown in FIG. 1 and subsequent drawings, the present invention is basically a structure for preventing disasters caused by a debris flow 1, comprising: a control pile 100 installed on the ground to switch the flow of the earths stone 1; A plurality of support piles 210 provided on the downstream side of the control pile 100 and a guard part 200 including a net member 220 coupled to the plurality of support piles 210 such that a part of the earth stone 1 is caught. ) (Fig. 1).

Debris (1) is a mixture of rock and soil. It is impossible to prevent this flow by an artificial structure.

The present invention is based on the fact that most of the debris (1), which largely damages the lower part of the mountain, is largely large in size and large in size, and reduces the flow of the debris (1) And a disaster prevention structure based on the undrawn stone (1).

First, in the structure according to the present invention, the control pile 100 is the member that first comes into contact with the earth Stone 1.

When the landslide occurs, the control pile 100 moves and disperses the domes and arms included in the debris flow 1 by colliding with the control pile 100.

This is because the flow of debris flows 1 is dispersed and the flow energy is reduced and the protective portion 200 provided on the downstream side of the control pile 100 can be protected from the impact force of the tip portion of the earths stone 1 It is effective.

Particularly, the phenomenon that the mesh collides with the net member 220 while the large and small arms and the nodules are concentrated can be prevented in advance by using the control pile 100 on the upstream side.

In addition, if the area of the drifting of the driftwood and colliding with the mesh member 220 is long in the longitudinal direction of the mesh member 220, the mesh member 220 may be damaged in a short period of time because the area of occluding the mesh becomes large.

In order to prevent this, the control pile 100 functions to minimize the area where the net member 220 collides with the nomad by closing the direction of the nomad.

The guard portion 200 provided on the ground surface of the downstream side of the control pile 100 is composed of a plurality of support piles 210 and a net member 220 interposed therebetween (FIG. 1).

It is preferable that the structure according to the present invention is installed such that the control pile 100 described above is located at the center portion on the upstream side of the guard portion 200.

The reason for this is as follows.

The flow path flow of the earth Stone 1 has a gentle curve shape and the flow energy at the center portion of the curve is the largest.

 This is because, when the control pile 100 is installed at the central part on the upstream side of the guard part 200, the flow energy of the debris flow 1 is further reduced.

Soils (1) have less damage to the lower part of the mountain than rocks and molluscs. However, large sediments may cause considerable damage, and therefore preventive measures are needed.

Therefore, the protector 200, in which the net member 220 is coupled to the plurality of support piles 210, is installed so that the gravel-like earth 1 can not penetrate the large-sized gravel.

The net member 220 of the guard part 200 stops the flow by engaging the net member 220 with the arm or the nomad contained in the earths stone 1 and the earth or sand having a large particle size and stops the flow of the part of the earths stone 1 By allowing the mesh member 220 to flow through the mesh member 220, damage is minimized.

The protection part 200 can obtain the effect of the protection part 200 described above by using the pair of supporting piles 210. However, the protection part 200 can be provided with the left supporting pile 211 and the right supporting pile 212, and may be installed in a structure coupled with the mesh member 220 (FIG. 2).

Such a structure adds to the advantage that the cancer contained in the earths stone 1 or the gravel having a large particle size can be dispersed to both sides to more effectively prevent the flow.

Here, the intermediate support pile 213 may be installed in the casing 214 such that a plurality of intermediate support piles 213 are accommodated therein (FIG. 5).

That is, a plurality of intermediate support piles 213 are inserted into the casing 214, and the other ends of the plurality of net members 220 coupled thereto are exposed through the through holes formed in the casing 214, respectively.

The protective portion 200 is provided in a plurality of along the flow direction of the earth Stone 1 so as to prevent the downstream side protective portion 200a of the upstream side protective portion 200a from being damaged So that the net size of the net member 220 of the unit 200b is reduced (FIG. 3).

Such a structure can correspond to the mesh members 220 dispersed by the particle size of the rock and the gravel included in the earth Stone 1.

Therefore, the load imposed on the mesh member 220 of the upstream-side protective portion 200a is reduced, and the durability of the mesh member 220 and the structural stability of the plurality of guard portions 200 are improved.

In addition, there is an effect of inducing the deposition of the cancer and the gravel sequentially in the direction toward the downstream side, thereby decreasing the flow energy of the soil stone 1 at an appropriate speed.

When the landslide occurs, since the amount of the underside stone 1 is considerably large, it is preferable that the mesh member 220 is coupled by the spreading permission means 300 so as to spread toward the downstream side when the gravels are inflowed.

Therefore, the spreading permission means 300 is provided on at least one support pile 210 of the plurality of support piles 210 to permit the unfolding of the net member 220 by the earth stone 1 , 5,6).

The unfolding means 300 means that the one end or both ends of the net member 220 are wound around the unfolding means 300. If a landslide occurs and the undrawn stone 1 flows into the net member 220 ) Is unwound and spreads toward the downstream side.

Such a structure has the effect of containing a large amount of the earth stone 1 in the net member 220 to prevent the flow to the downstream side and to induce the deposition.

In order to maximize the effect, it is preferable that the spreading permission means 300 prevents the unwinding of the net member 220 so that the spreading speed of the net member 220 is not too fast.

The spreading means 300 comprises a body 310 mounted on a support pile 210; A rod member 320 inserted into the body 310; And a spring member 330 surrounding the outer surface of the rod member 320. It is preferable that the net member 220 is a structure that is surrounded on the outer surface of the spring member 330 or supported in a wound state Figs.

Here, there are various methods for fixing the spring member 330 so as not to be detached from the outer surface of the rod member 320.

One of them is as follows.

A protrusion 321 protruding at a predetermined height is provided at the lower end of the rod member 320 so that the lower end of the spring member 330 is wound and fixed.

A fixing groove 311 is formed in the upper side of the main body 310 in which the rod member 320 is inserted so that when the rod member 320 is inserted into the main body 310, (311).

With this structure, while the spring member 330 does not separate from the rod member 320 but is fixed at the end, the rod member 320 is contracted or relaxed as the rod member 320 rotates and applies a constant elastic force to the web member 220 .

As described above, when a landslide occurs, the net member 220 receives the load by the debris flow 1 and unfolds toward the downstream side (Fig. 6).

At this time, when the net member 220 is continuously subjected to a larger load by the earth stone 1, the net member 220 wound around the outer surface of the spring member 330 gradually rotates while the rod member 320 rotates .

For this purpose, it is preferable that the rod member 320 is installed so as to be rotatable inside the main body 310.

Here, if a device for preventing the rotation of the rod member 320 is additionally provided, it is possible to adjust the speed at which the wound net member 220 is unwound too fast.

One end or both ends of the net member 220 are preferably installed to be separated from the unfolding means 300 when the unevenness of the earth stone 1 is applied to the net member 220 by a predetermined load or more (FIG. 7).

The structure in which the net member 220 is separated from the spread allowance means 300 has the following two effects.

Firstly, it is possible to prevent damages that may occur when the support pile 210 including the spread enabling means 300 is continuously resistant to the load of the earth Stone 1, thereby being advantageous in terms of durability.

Second, since only the net member 220 needs to be replaced at the time of maintenance work, the operation is easy.

Third, since the support pile 210, which is relatively expensive compared to the net member 220, is protected, the construction cost can be reduced during the maintenance work.

It is preferable that the net member 220 is formed of an elastic material so as to spread toward the downstream side when the earth stone 1 flows (Fig. 6).

It is preferable to further include a detection sensor for detecting that the net member 220 supported by the unfolding means 300 is unfolded when inflowing the underside 1.

Further, it is preferable that the apparatus further includes a sensing sensor for sensing a state in which the net member 220 is completely disengaged from the unfolding means 300.

The detection sensor can be installed in the spreading permission means 300 by using a plurality of wires or light sources.

Through this, it is possible to directly carry out the repair work by accurately grasping the movement of the earth rock 1 or the occurrence position of the landslide.

It is also possible to measure the flow velocity of the earth Stone 1 based on a predetermined distance between the installed sensors and the measured time.

In particular, in a state where the net member 220 is completely disengaged from the unfolding means 300, it is preferable that the detection sensor is installed so as to ring a red alarm so that the maintenance work can be urgently started.

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.

100: control pile 220: net member
200: Protective unit 300: spreading permission means
210: support pile 310: body
211: Left support pile 311: Fixing groove
212: right support pile 320: rod member
213: intermediate support pile 321: protrusion
214: casing 330: spring member

Claims (9)

As a structure for preventing disasters caused by the undrawn stone 1,
A control pile 100 installed on the ground to switch the flow of the earth Stone 1;
A plurality of support piles 210 provided on the downstream side of the control pile 100 and a guard member 220 including a net member 220 coupled to the plurality of support piles 210, (200);
Wherein the disaster prevention structure is constructed from a plurality of disaster prevention structures. The method according to claim 1,
The plurality of support piles (210)
Further comprising a left support pile (211), a right support pile (212) and an intermediate support pile (213) installed to engage the net member (220). 3. The method according to claim 1 or 2,
The protection unit 200 includes:
And a plurality of downstream side protective portions 200b are provided along the flow direction of the earth Stone 1 and the downstream side protective portions 200b are provided in the upstream side protective portion 200a among the plurality of protective portions 200 in comparison with the mesh size of the net member 220, Wherein a net size of the net member (220) of the disaster prevention structure is small. 4. The method according to any one of claims 1 to 3,
A spreading allowance means 300 for limiting the spreading of the netting member 220 by the earth stone 1 to at least one of the support piles 210 among the plurality of support piles 210;
Wherein the disaster prevention structure is constructed by the following. 5. The method of claim 4,
The spreading permission means 300
A main body 310 installed on the support pile 210;
A rod member 320 inserted into the body 310;
And a spring member (330) surrounding the outer surface of the rod member (320)
Wherein the net member (220) is supported on an outer surface of the spring member (330). 5. The method of claim 4,
One end or both ends of the net member 220
Is separated from the unfolding means (300) when the unevenness (1) is applied to the net member (220) by a predetermined load or more. The method according to claim 1,
The net member 220
Is formed of an elastic material so as to spread toward the downstream side when the earth stone (1) flows in. 5. The method of claim 4,
Further comprising a sensing sensor for sensing that the net member (220), which is supported in a state surrounded by the unfolding means (300), is switched to a deployed state when the undrained stone (1) flows in Disaster prevention structure by. The method according to claim 6,
Further comprising a sensing sensor for sensing a state in which the net member (220) is completely disengaged from the unfolding means (300).

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