KR102635133B1 - Rock Fall Preventing Mat Assembly of Compression Type Comprising Buffer Device for Preventing Rock Fall and its Construction Method - Google Patents

Abstract

The present invention relates to a compressed rockfall prevention net equipped with a rockfall prevention device and a construction method thereof. The rockfall prevention device includes a rectangular plate-shaped bottom with an installation hole for installing anchor bolts through it, and front and rear ends facing the bottom. An anchor bolt fixture having a channel-shaped cross-section including a pair of plate-shaped bent supports each bent in one direction transverse to one side of the bottom, and 4 protruding from both longitudinal ends of the pair of bent supports. Two fixture connecting rods, each disposed on both sides of the longitudinal direction with the anchor bolt fixture in between, connecting rods connecting opposing fixture connecting rods, penetrating by the connecting rod and spaced apart from each other along the extending direction of the connecting rod. It is movably installed and includes a pair of buffer holes through which the wire rope passes, and a spring that is penetrated by the pair of connecting rods and is interposed between the pair of buffer holes. When a rockfall occurs, the wire rope When the rope is tensioned, the pair of shock absorbers absorb the shock by overcoming the elastic resistance of the spring and approaching each other. In particular, the spring is stretched in the opposite direction toward the connecting rods on both sides with the anchor bolt fixture in between. Since it has a structure that cushions while being compressed, the volume occupied by the rockfall buffer can be minimized and a more compact structure can be obtained.

Description

Compressed rock fall prevention net with rock fall buffer device and its construction method {Rock Fall Preventing Mat Assembly of Compression Type Comprising Buffer Device for Preventing Rock Fall and its Construction Method}

The present invention relates to a compressed rockfall prevention net equipped with a rockfall buffer and a construction method thereof. Specifically, the present invention relates to a compressed rockfall prevention net equipped with a rockfall buffer and a construction method thereof. Specifically, the present invention relates to a network that effectively absorbs impact energy by flexibly changing its direction and position depending on the direction of the impact applied to the wire rope when a rockfall occurs. It relates to a compressed rockfall prevention net equipped with a rockfall buffer and its construction method.

Typically, a rockfall prevention net is installed to prevent fallen rocks from the rock existing on the slope (slope) on the side of a road or sidewalk from invading the road or sidewalk.

This rockfall prevention net is constructed to reinforce the slope by covering the slope with a net made of synthetic resin and firmly fixing it using fixing fasteners.

However, such a rockfall prevention net had a problem in that it was easily torn or damaged due to impact from falling rocks of a certain weight or more.

As a way to solve the above-mentioned problem, a rockfall prevention buffer using wire rope has been developed and applied to absorb the impact energy applied to the existing rockfall prevention net more elastically.

Figure 1 is a diagram showing a representative elastic compression type rockfall prevention net according to the prior art.

The elastic compression type rockfall prevention net according to the prior art is a binding device having a wire rope 20 disposed on the surface of the rockfall prevention net 10 and an anchor member 31 fixed to the slope while pressing the rockfall prevention net 10. It consists of a plate 30, a tension spring 40 that elastically connects the tie plate 30 and the wire rope 20.

However, according to the elastic compression type rockfall prevention net according to the prior art, the tension spring 40 is simply connected to the tie plate 30, so that it flexibly deforms against falling rocks that apply impact force in various directions as they roll. It had the disadvantage of being easily ruptured and damaged due to failure to cope with it.

KR 10-0859209 B1(2008.09.18.)

The present invention was developed to solve the problems of the prior art as described above, and is a compression device equipped with a rockfall buffer that effectively absorbs impact energy by flexibly changing the direction and position depending on the direction of the impact applied to the wire rope. The purpose is to provide a rockfall prevention net and its construction method.

In order to achieve the above-mentioned objectives, the compression type rockfall prevention net equipped with the rockfall buffer device according to the present invention includes a plurality of rockfall buffer devices arranged to be spaced apart from each other, and a wire rope connecting the rockfall buffer devices,

The rockfall buffer device,

Each includes a rectangular plate-shaped bottom portion in which an installation hole is formed so that an anchor bolt can be installed through a pair of plate-shaped bent support portions each bent in one direction transverse to one surface of the bottom portion at opposing front and rear ends of the bottom portion. Anchor bolt fixture forming a channel-shaped cross section;

Four fixture connecting rods protruding from both longitudinal ends of the pair of bending supports;

connecting rods disposed on both sides of the longitudinal direction with the anchor bolt fixture interposed therebetween and connecting opposing fixture connecting rods;

a pair of buffer holes penetrated by the connecting rod and movable in a spaced apart state along the extending direction of the connecting rod, through which the wire rope passes; and

a spring penetrated by the pair of connecting rods and interposed between the pair of shock absorbers;

It is characterized by including.

Each of the pair of buffer holes is,

A moving body through which the connecting rod passes;

a U-bolt penetrating the moving body with the connecting rod in between; and

A fastening nut screwed toward the moving body from both ends of the U-bolt;

Including,

The shock absorber is characterized in that it can rotate around the connecting rod.

The movable body is made of a hollow pipe, and a support member is interposed between the fastening nut and the movable body.

The moving body is characterized in that two first through-holes through which the U-bolt passes are formed, and a second through-hole through which the connecting rod passes is formed orthogonal to the two first through-holes.

The fixture connecting member is characterized in that it is detachably coupled to the bending support part.

A guide hole extending in a vertical direction is formed in the bending support part, and a guide piece capable of moving up and down along the guide hole is installed in the fixture connection bar.

The fixture connecting rod is each connected to a connecting rod disposed on one side and the other side of the anchor bolt fixture and consists of a first fixture connecting rod and a second fixture connecting rod that are separated from each other. The first fixture connecting rod and the second fixture connecting rod include A first guide piece and a second guide piece are installed, respectively, and a first guide hole and a second guide hole are formed in the bending support portion to guide the first guide piece and the second guide piece so as to be able to move up and down. .

The first fixture connecting band and the second fixture connecting band are configured to be laminated with a bent support portion, and the first guide piece and the second guide piece are characterized in that they are an assembly of bolts and nuts.

According to the present invention of the above-described configuration, the rockfall buffer device includes a rectangular plate-shaped bottom portion in which an installation hole is formed so that an anchor bolt can be installed through it, and one side transverse to one side of the bottom portion at the front and rear ends facing each other of the bottom portion. An anchor bolt fixture having a channel-shaped cross section including a pair of plate-shaped bent supports each bent in each direction, four fixture connecting rods protruding from both ends in the longitudinal direction of the pair of bent supports, and the anchor bolt fixture between the anchor bolt fixtures. A connecting rod is disposed on both sides of the longitudinal direction and connects opposing fixture connecting rods, is penetrated by the connecting rod and is installed to be movable in a spaced apart state along the extending direction of the connecting rod, and the wire rope is Including a pair of buffer holes that pass through and a spring that is penetrated by the pair of connecting rods and interposed between the pair of buffer holes, when a rockfall occurs and the wire rope is tensioned, the pair of buffer holes The shock is absorbed by overcoming the elastic resistance of the spring and approaching each other. In particular, the spring is compressed in the opposite direction toward the connecting rods on both sides with the anchor bolt fixture in between, thereby cushioning the shock. The volume occupied by the shock absorber can be minimized and a more compact structure can be obtained.

In addition, according to the present invention, the pair of shock absorbers each include a moving body through which the connecting rod penetrates, a U-bolt penetrating the moving body with the connecting rod in between, and the moving body from both ends of the U-bolt. Since it includes a fastening nut that screws toward can be avoided.

In addition, the buffers placed on both sides of the anchor bolt fixture can be deformed at different angles, enabling more flexible support for falling rocks. Even when installing a wire rope, the buffers rotate to support the slope. Since it can respond flexibly to protrusions, it is possible to avoid cases where excessive stress is applied to the wire rope or rockfall buffer during normal use, resulting in a decrease in durability.

In addition, according to the present invention, the moving body is made of a hollow pipe, and has a structure in which a support is interposed between the fastening nut and the moving body, so that materials can be saved while maintaining structural strength and the weight can be greatly reduced. can be reduced.

In addition, according to the present invention, the fixture connection bar can be detachably coupled to the bending support part to facilitate manufacturing and assembly.

In addition, according to the present invention, a guide hole extending in the vertical direction is formed in the bending support part, and a guide piece capable of moving up and down along the guide hole is installed in the fixture connection bar, so that the slope partially protrudes to push the wire rope outward. Even in such situations, the fixture connection bar can be installed flexibly while moving along the guide hole, so there is an advantage that excessive stress is not applied in advance to the wire rope or rockfall buffer.

In addition, according to the present invention, the fixture connecting rod is connected to a connecting rod disposed on one side and the other side of the anchor bolt fixture and is composed of a first fixture connecting rod and a second fixture connecting rod that are separated from each other, and the first fixture connecting rod A first guide piece and a second guide piece are installed on the and second fixture connectors, respectively, and the bending support portion has a first guide hole and a second guide hole to guide the first guide piece and the second guide piece so as to be able to move up and down. Formed, the first fixture connector and the second fixture connector can be lifted and moved separately and the angle changed along the first guide hole and the second guide hole, so they can be flexibly installed in response to the protruding structure of the slope in more detail. You can.

Figure 1 is a diagram showing an elastic compression type rockfall prevention net according to the prior art.
Figure 2 is a perspective view showing a rockfall buffer device according to an embodiment of the present invention.
Figure 3 is an exploded perspective view showing a rockfall buffer device according to an embodiment of the present invention.
Figure 4 is a plan view showing a rockfall buffer device according to an embodiment of the present invention.
Figure 5 is a front view showing a rockfall buffer device according to an embodiment of the present invention.
Figure 6 is a plan view showing a modified structure of a rockfall buffer according to an embodiment of the present invention when a rockfall occurs.
Figures 7 (a) to (f) are front views showing various modified structures of a rockfall buffer according to an embodiment of the present invention when a rockfall occurs.
Figure 8 is a plan view showing the construction state of a compressed rockfall prevention net equipped with a rockfall buffer according to an embodiment of the present invention.
Figure 9 is a front cross-sectional view showing the construction state of a compressed rockfall prevention net equipped with a rockfall buffer according to an embodiment of the present invention.

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

As shown in Figures 2 to 5, the rockfall prevention net equipped with a compression type rockfall buffer device according to the present invention includes a plurality of rockfall buffer devices (1000) arranged to be spaced apart from each other, and the rockfall buffer devices (1000) are connected. Includes a wire rope (W).

In addition, the rockfall buffer device 1000 includes a rectangular plate-shaped bottom portion 110 in which an installation hole 111 is formed so that the anchor bolt 900 can be installed through the bottom portion 110, and at opposite front and rear ends of the bottom portion 110. An anchor bolt fixture 100 having a channel-shaped cross section, each including a pair of plate-shaped bent supports 120 each bent in one direction transverse to one surface of the bottom 110, the pair of bent Four fixture connecting rods 200 protruding from both ends in the longitudinal direction of the support portion 120, each disposed on both sides in the longitudinal direction with the anchor bolt fixture 100 in between, and connecting the opposing fixture connecting rods 200 with each other. A rod 300, a pair of buffer holes that are penetrated by the connecting rod 300 and are movable in a spaced apart state along the extending direction of the connecting rod 300 and through which the wire rope (W) passes. (400), and a spring (500) penetrated by the pair of connecting rods (300) and interposed between the pair of buffer holes (400).

The longitudinal direction of the bent support portion 120 may be defined as the direction in which the boundary line between the bent support portion 120 and the bottom portion 110 faces.

According to this configuration, as shown in FIG. 6, when a rockfall occurs and the wire rope (W) is tensioned, the pair of buffers 400 overcome the elastic resistance of the spring 500 and approach each other. Absorbs shock.

In particular, according to the present invention, the spring 500 is compressed in a direction transverse to the opposite direction toward the connecting rods 300 on both sides with the anchor bolt fixture 100 in between, thereby cushioning the falling rocks. The volume occupied by the shock absorber 1000 can be minimized and a more compact structure can be obtained.

It is desirable to use a compression spring as the spring 500.

In addition, the pair of buffer holes 400 each have a moving body 410 through which the connecting rod 300 passes, and a U-bolt passing through the moving body 410 with the connecting rod 300 interposed therebetween. (420) and a fastening nut 430 screwed from both ends of the U-bolt 420 toward the moving body 410. The shock absorber 400 is centered around the connecting rod 300. It is desirable to configure it so that meetings are possible.

According to this configuration, the buffer 400 can freely rotate in the vertical direction with respect to the slope and be deformed while flexibly responding to the size or protrusion of the falling rock, thereby improving the buffering effect and causing rupture or damage due to local impact. This can be avoided.

In particular, according to the present invention, the shock absorbers 400 disposed on both sides of the anchor bolt fixture 100 can be deformed at different angles, thereby enabling more flexible support for falling rocks.

In addition, even when installing the wire rope (W), the shock absorber (400) can rotate to flexibly respond to the protrusion of the slope, so that excessive stress is normally applied to the wire rope (W) or the rockfall buffer (1000), thereby reducing the durability. This degradation can be avoided.

The movable body 410 is made of a hollow pipe through which the U-bolt 420 passes, and a support 450 such as a washer is disposed between the fastening nut 430 and the movable body 410. You can.

A wire rope (W) passes between the moving body 410 and the bent portion of the U-bolt 420.

In particular, it is desirable that the moving body 410 be composed of a pipe whose outer cross-sectional shape is square so as to naturally face the slope, thereby saving material and greatly reducing weight while maintaining structural strength.

Of course, alternatively, the moving body 410 is formed with two first through-holes (not shown) through which the U-bolt 420 passes, and is orthogonal to the two first through-holes and the connecting rod It may be configured to form a second through hole (not shown) through which 300 passes.

Preferably, the fixture connection bar 200 is detachably coupled to the bending support portion 120 using bolts and nuts, thereby facilitating manufacturing and assembly.

In this case, the fixture connecting rod 200 is capable of hinge movement with respect to the bending support portion 120.

In addition, a guide hole 121 extending in the vertical direction is formed in the bending support portion 120, and a guide piece 810 capable of moving up and down along the guide hole 121 may be installed in the fixture connector 200. there is.

According to this configuration, even in a situation where the slope partially protrudes and the wire rope (W) is pushed outward, the fixture connecting rod 200 can be flexibly installed while moving along the guide hole 121, so that the wire rope ( There is an advantage that excessive stress is not applied in advance to W) or the rockfall buffer 1000.

Of course, the fixture connecting rod 200 can rotate while moving up and down with respect to the bending support portion 120.

Moreover, the fixture connecting rod 200 is respectively connected to the connecting rod 300 disposed on one side and the other side of the anchor bolt fixture 100 and includes a first fixture connecting rod 210 and a second fixture connecting rod ( 220), and a first guide piece 811 and a second guide piece 812 are installed on the first fixture connecting piece 210 and the second fixture connecting piece 220, respectively, and the bending support portion 120 A first guide hole 121a and a second guide hole 121b may be formed to guide the first guide piece 811 and the second guide piece 812 so that they can move up and down.

A male screw 310 is formed on the connecting rod 300 and can be inserted into the fixture connecting rod 200 and then fastened with a nut 320.

According to this configuration, the first fixture connector 210 and the second fixture connector 220 can move up and down and change angles separately along the first guide hole 121a and the second guide hole 121b. It can be installed flexibly in response to the protruding structure of the slope in more detail.

That is, when the shapes of the slopes formed on both sides around the anchor bolt fixture 100 are different, the first fixture connector 210 and the second fixture connector 220 can be moved and installed separately, so that they have different lengths. It is possible to move and install it.

Meanwhile, the first fixture connector 210 and the second fixture connector 220 are configured to be stacked (overlapping configuration) with the bent support portion 120, and the first guide piece 811 and the second guide piece ( 812) is preferably composed of an assembly of bolts and nuts to facilitate mutual assembly.

Through this, the first fixture connector 210 and the second fixture connector 220 can rotate with respect to the bending support portion 120, thereby reducing the stress that acts when installing the wire rope (W) on a slope with an irregular surface structure. can be minimized.

Hereinafter, with reference to FIGS. 8 and 9, a construction method of a compressed rockfall prevention net equipped with a rockfall buffer according to an embodiment of the present invention will be described.

As shown, the construction method of a compressed rockfall prevention net equipped with a rockfall prevention device according to the present invention includes the step (S1) of laying a rockfall prevention mesh (G) on a slope, and a wire rope on the rockfall prevention mesh (G). After arranging (W) in a diamond shape, fixing the anchor bolt 900 to the drilled hole formed on the slope (S2), the anchor bolt fixture 100 is connected to the anchor bolt 900 through the installation hole 111. ), a step of inserting and fixing (S3), a step of coupling the wire rope (W) to a pair of buffers 400 to be installed on one connecting rod 300 (S4), and the pair of buffers ( 400) and a step (S5) of coupling the connecting rod 300 to the spring 500 and a pair of fixture connecting rods 200.

That is, it is preferable to previously couple the fixture connecting rod 200 to the anchor bolt fixture 100 before coupling the anchor bolt fixture 100 to the anchor bolt 900.

In addition, the moving body 410, U-bolt 420, and fastening nut 430 that constitute the shock absorber 400 can be assembled in advance.

In this way, construction is performed by assembling pre-assembled components on site using the connecting rod 300 and spring 500, so the construction of the entire rockfall prevention network is simple and work time is greatly reduced.

The rockfall prevention mesh (G) may be a PVC (polyvinyl chloride) mesh made of synthetic resin, an iron mesh made of metal, or a mixed mesh coated with PVC around the surface of the iron mesh.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It will be clear to a person with ordinary knowledge.

100... anchor bolt fixture
110... bottom part
111... Installer
120... bending support
121... guide hole
121a... first guide hole
121b... second guide hole
200... fixture connecting rod
210... 1st fixture connecting rod
220... 2nd fixture connecting rod
300...connecting rod
400... buffer hole
410... moving body
420... U-bolt
430... fastening nut
450... earth
500...spring
810... Information
811... 1st guide
812... 2nd guide
900... anchor bolt
1000... Rockfall buffer
G... Rockfall prevention mesh
W...wire rope

Claims (8)

In the rockfall prevention network including a plurality of rockfall buffers arranged to be spaced apart from each other and a wire rope connecting the rockfall buffers,
The rockfall buffer device,
Each includes a rectangular plate-shaped bottom portion in which an installation hole is formed so that an anchor bolt can be installed through a pair of plate-shaped bent support portions each bent in one direction transverse to one surface of the bottom portion at opposing front and rear ends of the bottom portion. Anchor bolt fixture forming a channel-shaped cross section;
Four fixture connecting rods protruding from both longitudinal ends of the pair of bending supports;
connecting rods disposed on both sides of the longitudinal direction with the anchor bolt fixture in between, and connecting opposing fixture connecting rods;
a pair of buffer holes penetrated by the connecting rod and movable in a spaced apart state along the extending direction of the connecting rod, through which the wire rope passes; and
a spring penetrated by the pair of connecting rods and interposed between the pair of shock absorbers;
A compressed rockfall prevention net equipped with a rockfall buffer, characterized in that it includes. According to paragraph 1,
Each of the pair of buffer holes is,
A moving body through which the connecting rod passes;
a U-bolt penetrating the moving body with the connecting rod in between; and
A fastening nut screwed toward the moving body from both ends of the U-bolt;
Including,
A compressed rockfall prevention net with a rockfall buffer, wherein the buffer can rotate around the connecting rod. According to paragraph 2,
The movable body is made of a hollow pipe, and a compression type rockfall prevention net with a rockfall buffer, characterized in that a support is interposed between the fastening nut and the movable body. According to paragraph 2,
A rockfall buffer device characterized in that two first through-holes through which the U-bolt passes are formed in the moving body, and a second through-hole through which the connecting rod passes is formed orthogonal to the two first through-holes. Equipped with pressure-type rockfall prevention net. According to any one of claims 1 to 4,
A compressed rockfall prevention net with a rockfall buffer, characterized in that the fixture connecting rod is detachably coupled to the bending support. According to clause 5,
A compression-type rockfall prevention net with a rockfall buffer, characterized in that a guide hole extending in the vertical direction is formed in the bending support portion, and a guide piece capable of moving up and down along the guide hole is installed on the fixture connection bar. According to clause 6,
The fixture connecting rod is each connected to a connecting rod disposed on one side and the other side of the anchor bolt fixture and consists of a first fixture connecting rod and a second fixture connecting rod that are separated from each other. The first fixture connecting rod and the second fixture connecting rod include A first guide piece and a second guide piece are installed, respectively, and a first guide hole and a second guide hole are formed in the bending support portion to guide the first guide piece and the second guide piece so as to be able to move up and down. Compressed rockfall prevention net equipped with rockfall buffer. In clause 7,
The first fixture connector and the second fixture connector are configured to be laminated with a bending support, and the first guide piece and the second guide piece are an assembly of bolts and nuts. A compression type equipped with a rockfall buffer device. Rockfall prevention net.

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