KR101215674B1 - Net for preventing falling rock, using wire rope - Google Patents

Abstract

PURPOSE: A falling stone prevention net using a wire rope is provided to maximally cut off falling stones and control ground failure by efficiently absorbing shock energy. CONSTITUTION: A falling stone prevention net using a wire rope comprises a pair of guide units(122), a pair of compression springs(121), shock absorbing pipes(123), pressure units(124), a center support unit(111), and support bars(130). The guide units integrate two strands of wire ropes(101) or separate the strands of the wire ropes from each other. The compression springs are installed between the guide units and elastically support the guide units. The shock absorbing pipes are installed between the guide units and the compression springs. The pressure units support the shock absorbing pipes. The center support unit couples the wire ropes to the gap between the compression springs and fixes the coupled wire ropes to the ground. The support bars band the wire ropes located at the compression springs using multiple bands(132).

Description

Net for preventing falling rock, using wire rope}

The present invention relates to a rockfall prevention net using a wire rope, in particular, to form a wire rope rockfall prevention net greatly improves the strength and efficiently absorbs energy due to the ground behavior, etc. Rockfall prevention net using a wire rope to maximize the effect of rockfall prevention It is about.

In general, the use of a wire rope has a superior effect when manufacturing a rockfall protection net. However, the conventional rockfall protection net has a straight line coated wire coated with a synthetic resin because it is almost impossible to weave the wire rope formed by twisting steel wires. Zigzag was bent to have a constant pitch, and the coated wire was rotated so that the bent portions of the coated wire and the coated wire were sequentially caught.

However, such a conventional rockfall prevention net manufacturing apparatus has a disadvantage in that the bearing capacity of the bent portion is weakened because the bent portion of the coated wire is simply caught, thereby maintaining the combined state, and thus, the bearing capacity of the entire rockfall prevention network is reduced and thus the life of the rockfall prevention network is reduced. And there was a drawback to lower the anti-falling effect.

In particular, if the rockfall protection net is lifted out by using heavy equipment such as a fork-lane for the rehabilitation after the installation of the rockfall prevention net, the bent part of the rockfall protection net will be unfolded, and the surface of the slope may not be reused. It is common to have a large number of protrusions, but if you apply too much force to close the rockfall protection net to the slope at the same time and install it tightly, the bent part of the rockfall protection net may be damaged. There was a problem that the fall prevention effect is significantly lowered since the installation of the protection net.

Furthermore, in order to increase the adhesion of the rockfall protection net, there was an inconvenience to maintain the rockfall prevention effect of the rockfall prevention net by installing a plurality of wire ropes fixedly intersecting horizontally and vertically on the upper surface of the rockfall prevention net.

In particular, such a diamond-shaped rockfall prevention net has a large variability to the construction when the construction because of this, even if the rockfall prevention net is in close contact with the slope, there is a problem in that the installation position of the support on the slope is uneven surface is limited.

In order to solve these problems, the applicant has previously filed a rockfall prevention net (application number 10-2002-00389600) using a wire rope. However, since the wire rope is woven into a net shape by a conventional method, the wire is supplied in one direction only. Since the wire rope is twisted continuously in one direction due to the twisting, it is impossible to weave the rockfall prevention net to the proper length because the wire rope is heavily loaded.

Furthermore, in the case of using a soft wire rope for smooth weaving, a bending phenomenon occurs in the wire rope caught on the weaving needle, which causes a problem that the knot is poorly processed.

In addition, in the case of weaving a rigid wire rope, the knot was gradually released by the restoring force of the wire rope even though the knot was completed.

In order to solve the above problems, the applicant has pre-registered a rockfall prevention net (Registration Patent 10-0685717) using the wire rope, but if a strong pressure occurs due to ground behavior, it does not absorb the energy and directly impacts the rockfall prevention net. There was a problem of applying energy.

Therefore, in order to solve the above problems, the main purpose of the present invention is to form a wire rope in a hexagonal shape, but not only to maximize the supporting force, but also to efficiently absorb impact energy to prevent rockfall and ground collapse to maximize the fall of rockfall. To provide a safety net.

In order to achieve the above object, the rockfall prevention net using the wire rope of the present invention is installed between a pair of upper and lower guide spheres which are combined or separated by penetrating two wire ropes, and the guide sphere is installed between the upper and lower pairs of guide spheres. A pair of compression springs that are elastically installed, a shock absorbing tube that is installed between the guide and the compression springs, and crushed at a predetermined pressure or more, and a central support for coupling the wire rope between the pair of compression springs to fix the ground. In this configuration, the wire ropes of the coalesced state passed downward from the lower guide sphere are separated on the left and right diagonally, and the respective wire ropes are merged from the side and merged together with the separated wire rope to the upper guide sphere, By repeating the work continuously, the rockfall prevention net formed by the hexagonal wire rope And that the basic feature of the configuration to castle as its technical construction.

Therefore, the rockfall prevention net using the wire rope of the present invention is inserted into the guide sphere by combining the two wire ropes, and when the shock absorbing tube is fastened to the lower side of the guide sphere, the pressure port is coupled to the lower side of the shock absorbing tube nail nail It is firmly fixed on the ground, and then the compression spring is inserted into the lower wire rope of the pressure port, and the wire rope is guided and fixed while guiding and fixing the wire rope in the guide groove of the center support. As a result, the impact energy is first absorbed to stabilize the ground, and when a larger pressure is generated, the pressurization port releases the support state by the larger energy and presses the compression spring to absorb the impact energy secondly. Stabilize the ground, in particular the pressure port pressurizes the compression spring When absorbing the energy of the furnace, the band of the support bar absorbs the energy by blocking it step by step, so that the ground can be more efficiently secured. Furthermore, the surface area of the rockfall prevention net increases, and the occurrence of slope collapse or rockfall due to the ground behavior elastically occurs. It is to suppress the effect.

1 is a front view showing the overall installation state of the rockfall prevention net using a wire rope according to the present invention.
Figure 2 is a front view showing the shock absorbing portion of the rockfall prevention net using a wire rope according to the present invention.
Figure 3 is a front view showing the central support of the rockfall prevention net using a wire rope according to the present invention.
Figure 4 is a front view showing a disassembled state of the central support of the rockfall prevention network using a wire rope according to the present invention.
5 is a front view showing the overall deformation state of the rockfall prevention network using a wire rope according to the present invention.
Figure 6 is a front view showing the primary deformation state of the shock absorbing portion of the rockfall prevention network using a wire rope according to the present invention.
Figure 7 is a front view showing the secondary deformation state of the shock absorbing portion of the rockfall prevention network using a wire rope according to the present invention.
Figure 8 is a cross-sectional view showing the shock absorbing portion of the rockfall prevention net using a wire rope according to the present invention.

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

As shown in Figures 1 to 8, the rockfall prevention net 100 using the wire rope of the present invention is a pair of upper and lower guide spheres 122 to combine or separate by penetrating the two wire rope 101, and It is installed between a pair of upper and lower guide spheres 122 and a pair of compression springs 121 to elastically install the guide sphere 122, and installed between the guide sphere 122 and the compression spring 121, but a constant pressure By combining the wire rope 101 between the impact absorbing pipe 123, the pressure port 124 for supporting the shock absorbing pipe 123, and the pair of compression springs 121 to be crushed above ground A plurality of bands 132 are connected to both ends of the central support 111 fixed to the upper and lower pressurizing holes 124 installed above and below the central support 111, and the wire rope 101 positioned at the compression spring 121. Consists of a support bar 130 for bending.

The guide sphere 122 separates the wire rope 101 of the coalesced state passed downward of the lower guide sphere 122 in a left and right diagonal shape, and each of the separated wire ropes 101 is merged and separated from the side. With the wire rope 101 is combined again with the upper guide sphere 122, the above operation is repeated repeatedly to form a hexagonal rock fall prevention network 100.

Here, the guide sphere 122 is preferably open and close one side so that the wire rope 101 can be easily fitted.

In addition, the guide sphere 122 may be cut to the left and right to be assembled by banding or the like.

The compression spring 121 is formed in each of the upper and lower of the coalesced rock fall prevention net 101 so that the upper end of the upper compression spring 121 and the lower end of the lower compression spring 121 is caught by the guide sphere 122.

The shock absorbing tube 123 is formed in a half pipe shape by cutting in the longitudinal direction, it is preferable to fasten it by bolting or bending it.

Here, the shock absorbing tube 123 may be formed with a plurality of fracture grooves.

The pressure port 124 is installed between the shock absorbing tube 123 and the compression spring 121, but to be firmly supported by fixing with a support or nail in the ground.

That is, since the support piece 125 is formed by punching the nail hole 126 and the connection hole 127 in the pressing hole 124, the nail or support is embedded in the ground to firmly fix the pressing hole 124.

Therefore, when a predetermined pressure or more is applied to the guide sphere 122 due to ground behavior, the shock absorbing tube 123 is broken and absorbs the primary impact energy, and the pressure sphere 124 is firmly supported when more pressure is applied. While pressing out of the fixed state to press the compression spring 121 to absorb the impact energy in the secondary.

The support bar 130 is coupled to the connection hole 127 of the pressure port 124 formed on the upper and lower sides of the shock absorbing portion 120 to form a coupling piece 131 at both ends and the wire is located in the compression spring 121 The rope 101 is banded into a plurality of bands 132.

Therefore, the pressure port 124 can be more firmly supported, and when the pressure port 124 presses the compression spring 121 to absorb energy in the second time, the energy is absorbed while blocking the step by step so that the pressure port 124 is more efficient. Therefore, it is possible to suppress the occurrence of slope collapse and rockfall due to ground behavior.

The central support 111 is formed in a pair of up and down to fix the intersection of the wire rope 101, to form a guide groove 112 facing up and down inside to guide the combined wire rope 101. .

Wherein the guard groove 112 is to be guided by separating the guide grooves 112 to the left and right and up and down in the center and woven in the cross section of the wire rope 101.

Furthermore, the left and right pair of upper and lower center support 111 is formed to form a fastening hole 114 corresponding to each other so as to be combined with a conventional fastening means.

In addition, it is preferable to form a nail hole 113 to fix the nail or underground embedded in the ground above or below the central support 111.

On the other hand, the wire rope 101 is formed by twisting a plurality of rigidity is preferably coated with a synthetic resin to prevent the wire rope 110 is oxidized after installation.

In addition, the front and rear of the shock absorbing tube 123 and the front and rear of the compression spring 121, it is preferable to fit the "C" type washer or ring to operate smoothly.

The operation of the present invention will be described as follows.

First, the two wire ropes 110 are inserted into the guide sphere 122, and when the shock absorbing tube 123 is fastened to the lower side of the guide sphere 122, the pressure port is pressed downward of the shock absorbing tube 123. 124 is coupled but the pressure port 124 is fixed to the ground firmly to the nail through the nail ball 126.

Further, the compression spring 121 is inserted into the lower wire rope 101 of the pressing hole 124 and coalesced, and then the wire rope 101 is guided and fixed to the guide groove 112 of the central support 111.

At this time, the wire rope 101 is woven so as to be fixed to the guide groove 112, but fastened to the fastening means 114 of the central support 111 by a pair of upper and lower pairs of the central support 111 is wire rope 101 ) To be pressed and supported.

Furthermore, when the coupling of the central support 111 is completed, the compression spring 121 and the lower guide sphere 122 are sequentially coupled to the lower side of the central support 111 as described above.

Here, the coupling piece 131 of the support bar 130 is coupled to the connection hole 127 of the pressing hole 124 formed above and below, and the wire rope 101 positioned in the compression spring 121 has a plurality of bands 132. By banding), not only can support the pressure port 124 more firmly, but also when the pressure port 124 presses the compression spring 121 to absorb energy secondarily, the band 132 is sequentially compressed. Compression while preventing compression of the spring 121 improves the absorption of energy.

On the other hand, the wire rope 101 coalesced and passed through the lower guide hole 122 is separated on the left and right diagonally, and the wire rope 101 separated by coalescing the separated wire rope 101 from the side again is separated from the above. At the same time as the coalescing is performed repeatedly and repeatedly to form a rockfall prevention net 100 of the hexagonal shape.

Furthermore, the assembly of the central support 111 can be fastened first, and then the compression spring 121, the pressure port 124, the shock absorbing pipe 123, the guide port 122, and the support bar 130 can be fastened. Can be optionally assembled as needed.

In the present invention, when an external force or a rockfall occurs due to the ground behavior, the wire rope 101 expands and presses the guide sphere 122.

At this time, when a predetermined pressure or more occurs, the guide sphere 122 is to crush the shock absorbing tube 123, thereby absorbing the impact energy to the primary to stabilize the ground.

Here, when a larger pressure is generated in the ground, the absorbing energy is primarily absorbed as described above, and then the pressure port 124 fixed to the ground by nail or prop is released by the larger energy, and the supporting state is When released, the pressure port 124 presses the compression spring 121 to contract and absorb the impact energy to stabilize the ground.

At this time, the pressure port 124 to prevent the compression spring 121 is not easily opened without being compressed by the external force to maintain the elastic state more efficiently.

In particular, since the wire rope 101 is bent from the compression spring 121 through the support bar 130, the absorption bar of the compression spring 121 may be prevented from being improved at each bending position, and the support bar 130 may be improved. The band (132) is bent loosely in a fixed state so that the wire rope 101 is oxidized at the bending part even after a long period of time to prevent the strength from being lowered.

In addition, in the case of absorbing energy as described above, the surface area increases as the coalescing portion of the wire rope 101 decreases, thereby suppressing the occurrence of slope collapse or rockfall due to the ground behavior such as the compression spring 121.

100: rockfall protection net 101: wire rope
110: support portion 111: center support
112: guide groove 113: nail ball
114: fastening hole 120: shock absorbing part
121: compression spring 122: guide sphere
123: shock absorbing tube 124: pressure port
125: support piece 126: nail ball
127: connecting hole 130: support bar
131: combining piece 132: band

Claims (6)

Rockfall prevention net using a wire rope 100 is a pair of upper and lower guide sphere 122 to combine or separate by penetrating two wire rope 101,
A pair of compression springs 121 installed between the upper and lower pairs of guide holes 122 to elastically install the guide holes 122,
And installed between the guide sphere 122 and the compression spring 121, but the shock absorbing pipe 123 to crush at a predetermined pressure or more,
A pressure port 124 supporting the shock absorbing tube 123);
A central support 111 for coupling the wire rope 101 between the pair of compression springs 121 and fixing it in the ground; and
Coupled to both ends of the pressure port 124 installed above and below the central support 111, but the support bar 130 for bending the wire rope 101 located in the compression spring 121 to a plurality of bands (132) Rockfall prevention network using a wire rope characterized in that the configuration.
The method of claim 1,
The guide sphere 122 separates the wire rope 101 of the coalesced state passed downward of the lower guide sphere 122 in a left and right diagonal shape, and each of the separated wire ropes 101 is merged and separated from the side. Falling together with the wire rope 101 to the upper guide sphere 122, falling rock prevention net using a wire rope, characterized in that configured to form a hexagonal rock fall prevention network (100).
The method of claim 1,
The impact absorbing pipe 123 is formed in a half pipe shape by cutting in the longitudinal direction, but bolted or bent to fasten it by a rockfall prevention net using a wire rope, characterized in that formed by forming a plurality of fracture grooves on the outer periphery.
The method of claim 1,
The pressure port 124 is installed between the shock absorbing tube 123 and the compression spring 121, to form a support piece 125 for punching the nail hole 126 and the connection hole 127 to be fixed to the ground Rockfall prevention network using a wire rope, characterized in that configured to make.
The method according to claim 1 or 4,
The support bar 130 is coupled to the connection hole 127 of the pressure port 124 installed on the upper and lower by forming the engaging piece 131 at both ends and a plurality of wire rope 101 located in the compression spring 121 Rockfall prevention network using a wire rope, characterized in that the band 132 is configured by bending.
The method of claim 1,
The central support 111 is formed in a pair of up and down to form a guide groove 112 facing up and down, to separate the guide groove 112 from side to side in the upper and lower sides of the guide groove 112, and merge in the center, Weaving the intersection of the wire rope 101 is pressed to support, and formed a nail ball 113, embedded in the ground with nails to prevent the rockfall prevention net using a wire rope, characterized in that configured to fix the central support (111).

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