KR102507547B1 - prevention fence for shock absorption of falling objects - Google Patents

Abstract

The present invention relates to a prevention fence (100) for shock absorption of a falling object. The prevention fence (100) for shock absorption of a falling object includes: multiple foundation structures (200) comprising a concrete structure delivering stress of a structure to the ground; a support beam safety reinforcing unit (120) assembled to an upper end of the foundation structure (200) and obtaining a bearing force of a pillar beam (110) against a load of a falling stone; and a mesh (160) installed between the pillar beams (110) and preventing damage that the stone falls from the upper side of a mountain or a cliff. The prevention fence (100) for shock absorption of a falling object can obtain the bearing force of the pillar beam against the load of the falling stone and maintain structural stability to be safer by alleviating the impact of the falling stone. Accordingly, the prevention fence (100) for shock absorption of a falling object can largely improve reliability and quality thereof.

Description

{prevention fence for shock absorption of falling objects}

An embodiment of the present invention relates to a preventive measure for absorbing falling object shock, and more specifically, to secure the bearing capacity for the load of a falling object of a support beam and to maintain structural stability more safely by mitigating the impact of a falling object As a result, the quality and reliability of the anti-measure for absorbing the impact of falling objects can be greatly improved.

As is well known, a prevention fence for falling stone refers to a wall installed to prevent falling stones around roads or railroads.

In addition, the fall prevention measures are also structures installed to protect facilities, cars, or people under the cliff from falling rocks.

The prior art rockfall prevention device is a device installed at the boundary between a slope and a road or railroad to block falling rocks generated from a slope from flowing into the road or railroad, and a foundation structure installed along the edge of the road or railroad. A plurality of vertical holding beams are installed spaced apart from each other, a wire rope is installed between the holding beams, and a blocking wire mesh is installed on the wire rope.

The holding beam serves as a support for the entire device, and the wire rope and the blocking wire mesh installed therebetween serve to block rockfalls generated on the slope. At this time, although various shock absorbing structures have been developed so that the wire rope can absorb the impact of the falling rock, when the impact energy due to the falling rock is large, it is not sufficiently absorbed.

In particular, the prior art has the following problems.

That is, there is a problem in that the bearing capacity for the load of falling rocks cannot be secured due to structural defects, and there is a problem that safety cannot be secured due to structural defects that alleviate the impact of falling rocks, and when the scale of falling rocks is large There is a problem of structural defects that the holding beam cannot stably support, and there is also a problem that the bending deformation of the holding beam cannot be minimized. This occurred, and a big problem occurred that it could not withstand a high-capacity rockfall of 1000 tons or more when the spacing between the supporting beams was wide.

In order to solve the above problems, the following prior art documents have been developed in the prior art, but there is still a big problem that the problems of the prior art cannot be solved at once.

Republic of Korea Patent Registration No. 1704771 (2017. 02. 02) has been registered. Republic of Korea Patent Registration No. 2400453 (2022. 05. 17) has been registered. Republic of Korea Patent Registration No. 2086203 (2020. 03. 02) has been registered. Republic of Korea Patent Registration No. 2180372 (2020. 11. 12) has been registered.

The present invention has been devised to solve all the problems of the prior art as described above, and to prevent shock absorption of falling objects, a holding beam, a holding beam safety reinforcement part, a cap, a wire mesh, a shock absorber, an anchor bolt, a foundation structure, a rock bolt And a filler is provided as the first object, the second object of the present invention according to the above technical configuration is to secure the bearing capacity for the load of the falling rock of the holding beam, and the third object is to mitigate the impact of the falling rock to provide structural The fourth purpose is to prevent safety accidents in advance by enabling the holding beam to stably support even in the case of a large rockfall, and the fifth purpose is to prevent safety accidents in advance. It is to minimize the bending deformation of the holding beam by reinforcing the bending strength, and the sixth purpose is to reinforce the base structure, the holding beam safety reinforcement part, and the end connection of the wire so that more than 1600 megapascals (MPa) can be used The seventh purpose is to safely perform the function of preventing falling rocks, and the eighth purpose is to withstand high-capacity falling rocks of 1,000 tons or more even if the supporting beams are widely spaced apart. As a result, the quality and reliability of the anti-falling object impact absorption can be greatly improved.

In order to achieve this object, the present invention relates to a preventive measure for absorbing falling object shock, wherein the preventive measure for absorbing falling object shock is located in or on the ground and consists of a concrete structure that transmits the stress of the structure to the ground A plurality of foundation structures; A holding beam safety reinforcement unit assembled at the top of the foundation structure to secure the bearing capacity against the load of the falling rock of the holding beam; And a wire mesh provided between the supporting beams and the supporting beams and installed for the purpose of preventing damage from falling stones from the top of a mountain or a cliff.

As described above, in the present invention, a holding beam, a holding beam safety reinforcing part, a cap, a wire mesh, a shock absorber, an anchor bolt, a foundation structure, a rock bolt, and a filler are provided in an anti-falling object shock absorption prevention measure.

The present invention according to the above technical configuration is to secure the bearing capacity for the falling rock load of the holding beam.

In addition, the present invention is to mitigate the impact of rockfall to maintain structural stability more safely.

And the present invention is to prevent safety accidents in advance by enabling the holding beam to stably support even when the scale of the rockfall is large.

In addition, the present invention is to minimize the bending deformation of the holding beam by reinforcing the bending strength of the holding beam.

In particular, the present invention is to enable the use of 1600 megapascals (MPa) or more by reinforcing the end connection of the foundation structure, the holding beam safety reinforcement part, and the wire.

In addition, the present invention is to be able to safely perform the fall prevention function.

In addition, the present invention is to withstand a high-capacity rockfall of 1000 tons or more even if the spacing between the holding beams is wide.

The present invention is a very useful invention that can significantly improve the quality and reliability of the anti-measure for absorbing the impact of falling objects due to the above effects.

Hereinafter, a preferred embodiment of the present invention for achieving these effects will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of a preventive measure for absorbing the shock of falling objects applied to the present invention.
Figure 2 is a combined use state of the preventive measures for absorbing the impact of falling objects applied to the present invention
A district showing a state in which the holding beam was erected vertically due to no occurrence of road and rockfall
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Figure 3 is a combined use state of the preventive measures for absorbing the impact of falling objects applied to the present invention
Configuration showing a state where the holding beam is bent to one side due to road and falling rocks
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Figure 4 is a state of use of the preventive measures for absorbing the impact of falling objects applied to the present invention.
5 is a configuration of another embodiment of a preventive measure for absorbing impact of falling objects applied to the present invention
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(a) (b) (c) of Figure 6 is another of the preventive measures for absorbing the impact of falling objects applied to the present invention
Configuration diagram of another embodiment.

The preventive measures for absorbing the impact of falling objects applied to the present invention are configured as shown in FIGS. 1 to 6 .

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the terms to be described later are terms set in consideration of functions in the present invention, which may vary according to the intention or custom of the producer, so the definitions should be made based on the contents throughout this specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings.

First, the present invention relates to a preventive measure 100 for absorbing falling object shock, and is configured as follows.

That is, the present invention is provided with a plurality of foundation structures 200 made of concrete structures located in or on the ground and transferring the stress of the structure to the ground.

At this time, the foundation structure 200 is provided with a plurality of foundation anchors 210, the lower end of the foundation anchor is fixed to the inside of the foundation structure in an "L" shape, and the upper end is exposed to the outside of the top of the foundation structure It consists of

In addition, it is preferable that the foundation structure 200 is provided with a plurality of rock bolts 220 for firmly fixing the foundation structure 200 by being embedded in the ground.

And the present invention is assembled on the upper end of the foundation structure 200, and is provided with a holding beam safety reinforcement part 120 to secure the bearing capacity for the falling rock load of the holding beam 110.

In addition, in the present invention, a wire mesh 160 is provided between the holding beams 110 and the holding beams 110 and installed for the purpose of preventing damage from falling stones on a mountain or a cliff.

The holding beam safety reinforcement part 120 applied to the present invention is configured as follows.

That is, the present invention is provided with a plate 121 having a plurality of fastening holes 122 formed on one side so that the foundation anchor 210 of the foundation structure 200 is fitted.

In addition, the present invention is provided with a plurality of long holes 124 formed on the other side of the plate 121 to fit the foundation anchor 210 of the foundation structure 200.

At this time, it is preferable that a reinforcement part 123 for protecting the plate 121 protrudes from the upper end of the plate 121 around the long hole 124 .

In addition, it is preferable that a ramp 123a is formed on the upper part of the other side of the reinforcing part 123 so as to increase the resistance of the elastic sphere 125 .

In addition, the present invention is assembled at the top of the long hole 124 into which the foundation anchor 210 is inserted, and an elastic ball 125 for absorbing shock when the holding beam 110 is bent is provided.

At this time, the elastic ball 125 may include a compression spring or a shrinking material or an aluminum tube.

And the present invention is assembled to the base anchor 210, the cover 126 for protecting the elastic sphere 125 is provided.

In addition, the present invention is assembled to the foundation anchor 210, the cover 126 is provided with a nut 127 for preventing separation.

And the present invention is provided with a holding beam 110, which is erected vertically on top of the plate 121 and installs the wire mesh 160.

In particular, at one corner of the lower end of the plate 121 and the holding beam 110 applied to the present invention, a wire connection portion 112 reinforcing the lower end of the holding beam 110 by inserting a lower support wire 115 into the through hole 113 are provided

In addition, a support piece 111 is provided at the other bottom corner of the plate 121 and the holding beam 110 applied to the present invention to reinforce the lower end to secure the bearing capacity when the holding beam 110 is bent outward.

In addition, the top of the holding beam 110 applied to the present invention is fixed with a fastener 153, and a wire seating groove 151 is formed on one side so that the upper support wire 155 is seated, and at the top of the wire seating groove A cap 150 having a locking device 152 preventing the upper support wire from being easily separated is provided.

On the other hand, in the present invention, the upper support wire 155 and the lower support wire 115 are interconnected with anchor bolts 180 at both ends of the shock absorbing preventive 100 of falling objects, so that the preventive 100 for absorbing shock of falling objects is closely connected. It is fixedly installed, and the upper support wire 155 connects the two wires to each other, and the shock absorber 170 is connected in the middle thereof to absorb the shock transmitted to the falling object shock absorbing prevention 100.

At this time, the shock absorbing device 170 has a spring 172 provided between both supporting pieces 171 so that the spring 172 is compressed upon impact to absorb the impact.

On the other hand, the present invention inserts the lower end of the holding beam 110 into the inside of the foundation structure 200, but between the outer circumferential surface of the holding beam 110 and the foundation structure 200, the holding beam 110 and the foundation structure It is preferable to have a filler 250 that can protect 200 from impact. (FIG. 5)

At this time, it is preferable that urethane or rubber elastic material is used as the filler 250 .

And the shape of the holding beam 110 applied to the present invention may be made of "H beam" or "square" or "circular" or "polygon", etc., as well as the outer circumferential surface of the holding beam 110 as described above. It goes without saying that a filler 250 is provided between the base structure 200 and the impact protection (FIG. 6a, 6b, 6c).

Meanwhile, the present invention may be variously modified and take various forms in applying the above components.

And it should be understood that the present invention is not limited to the particular forms mentioned in the above detailed description, but rather includes all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. should be understood as

The effect of the preventive measure for absorbing the impact of falling objects according to the present invention constructed as described above is as follows.

First of all, the present invention is to secure the bearing capacity of the pillar beam against the rockfall load and to maintain structural stability more safely by mitigating the impact of the rockfall.

To this end, FIG. 1 applied to the present invention is an exploded perspective view of a falling object shock absorption prevention measure 100, showing a state in which the holding beam safety reinforcement part 120 and the basic structure 200 are separated.

In addition, Figure 2 is a state diagram showing the state of using the combined state of the preventive measure 100 for absorbing falling object shock absorption applied to the present invention, showing a configuration diagram showing a state in which the support beam 110 is erected vertically due to the non-occurrence of falling rocks.

And Figure 3 is a state diagram showing the state of using the combined state of the anti-falling object impact absorption 100 applied to the present invention, showing a configuration diagram showing a state in which the holding beam 110 is bent to one side due to falling rocks.

In addition, Figure 4 shows a state of use of the preventive measures 100 for absorbing the impact of falling objects applied to the present invention.

Hereinafter, the operational effects of the present invention described above will be described in more detail.

In the present invention, the foundation structure 200 is firmly fixed to the ground using a plurality of rock bolts 220. Then, by seating the plate 121 on the top of the foundation structure 200, one side fastening hole 122 is fitted into the foundation anchor 210, and the other long hole 124 is fitted into the foundation anchor 210 .

At this time, a nut is fastened to the foundation anchor 210 on one side, and the elastic sphere 125, the cover 126, and the nut 127 are fitted and assembled to the other long hole side foundation anchor 210.

If the holding beam safety reinforcement part 120 is installed on each of the plurality of foundation structures 200 in the same way as above, the holding beam 110 is erected vertically, and the wire mesh 160 is placed between the holding beams. install

In addition, the cap 150 is fixedly installed at the top of the holding beam 10 with a fastener 153, and a plurality of holding beams 110 and wire mesh 160 are installed in the wire seating groove 151 on one side of the cap 150. ) Install the upper support wire 155 interconnecting them. At this time, at the upper end of the wire seating groove 151, a locking device 152 for preventing the separation of the upper support wire 155 is rotated around the hinge axis to help the attachment and detachment of the upper support wire and prevent separation.

In addition, the present invention inserts the lower support wire 115 into the through hole 113 of the lower wire connection part 112 of the holding beam 110, and the holding beam 110 and the wire mesh 160 to the upper end as well as the lower end of the holding beam 110 ) are interconnected.

And, as shown in FIG. 4, the present invention interconnects the upper support wire 155 and the lower support wire 115 with anchor bolts 180, and then fixes them by driving anchor bolts into the ground on one side and the other side.

At this time, a shock absorbing device 170 is provided in the middle of the upper support wire 155, so that when an impact occurs, the compression force of the spring 172 provided between the two supporting pieces 171 prevents the falling object shock absorption prevention measures 100 absorb the shock.

In the present invention, when a rock falls occurs in the above state, the preventive measures 100 for absorbing the impact of falling objects operate as shown in FIG. 3 .

That is, when a rockfall occurs, an impact is transmitted to the wire mesh 160 and the holding beam 110, and at this time, the support piece 111 pulls the plate 121 upward while the holding beam 110 is bent outward. As a result, the long hole 124 into which the foundation anchor 210 is inserted moves from one side to the other side, and in this process, the plate 121 is bent upward and the elastic ball 125 located at the top of the long hole 124 is compressed. The impact is absorbed, and the cover 126 prevents deformation of the elastic sphere 125 .

In the present invention, as the ramp 123a is formed on the upper surface of the other side of the reinforcing part 123 on which the long hole 124 is formed during the operation process, the ramp 123a increases the resistance and frictional force of the elastic ball 125 to impact impact to increase absorption.

On the other hand, Figure 5 shows a block diagram of another embodiment of the preventive measures 100 for absorbing the shock of falling objects applied to the present invention, and (a) (b) (c) of Fig. 6 shows the preventive measures for absorbing the shock of falling objects applied to the present invention ( 100) shows a configuration diagram of another embodiment.

The operational effects of the other embodiments of the present invention described above are as follows.

That is, in the present invention, the foundation structure 200 is firmly fixed to the ground using the rock bolts 220.

Then, the holding beam safety reinforcement part 120 is assembled using the foundation anchor 210 on the foundation structure 200, but the lower end of the holding bib 110 penetrates the plate 121 so that the foundation structure 200 It is configured to be inserted inside.

At this time, a filler 250 such as urethane or rubber elastic material is provided between the outer circumferential surface of the holding beam 110 and the base structure 200 to absorb shock from impact and to protect the material.

In addition, the shape of the holding beam 110 applied to the present invention may be made of "square" or "circular" or "polygon" as well as the "H beam" shown in the drawing, as well as the holding beam as described above. A filler 250 for protecting impact is provided between the outer circumferential surface of 110 and the basic structure 200 to absorb impact and protect the material.

As described above, the present invention is to secure the bearing capacity of the pillar beam against the rockfall load, to mitigate the rockfall impact to maintain structural stability more safely, and to ensure that the pillar beam is stable even when the scale of the rockfall is large. It is to prevent safety accidents in advance by supporting it with a support beam, and to minimize the bending deformation of the holding beam by reinforcing the bending strength of the holding beam, and the end of the foundation structure, the holding beam safety reinforcement part, and the wire It is designed to be able to use more than 1600 megapascals (MPa) by reinforcing the connection part, and to be able to safely perform the fall prevention function, and to withstand more than 1000 tons of falling rocks with high capacity even when the spacing between the support beams is wide. It provides an effect that can be achieved.

The technical idea of the preventive measures for absorbing shock of falling objects of the present invention is that the same result can be repeatedly implemented in practice, and in particular, by implementing the present invention, it can contribute to industrial development by promoting technological development, and thus it is worth protecting.

<Description of symbols for main parts of drawings>
100: Preventive measure for absorbing falling object shock
110: support beam
120: holding beam safety reinforcement part
150: cap
160: wire mesh
170: shock absorber
180: anchor bolt
200: foundation structure
220: rock bolt
250: filler

Claims (5)

It relates to a preventive measure (100) for absorbing falling object shock,
The shock absorber for falling objects 100 is located in or on the ground, and includes a plurality of foundation structures 200 made of concrete structures that transmit the stress of the structure to the ground; It is assembled at the top of the foundation structure 200, and the holding beam safety reinforcement part 120 to secure the bearing capacity for the falling rock load of the holding beam 110; And a wire mesh 160 provided between the supporting beams 110 and the supporting beams 110 and installed for the purpose of preventing damage from falling stones from a mountain top or a cliff;
The holding beam safety reinforcement part 120 includes a plate 121 having a plurality of fastening holes 122 formed on one side so that the foundation anchor 210 of the foundation structure 200 is fitted; A plurality of long holes 124 formed on the other side of the plate 121 to fit the foundation anchor 210 of the foundation structure 200; An elastic ball 125 assembled at the top of the long hole 124 into which the base anchor 210 is inserted and absorbing shock when the holding beam 110 is bent; A cover 126 assembled to the base anchor 210 and protecting the elastic sphere 125; A nut 127 assembled to the base anchor 210 and preventing the cover 126 from coming off; And a holding beam 110 standing vertically on top of the plate 121 and installing the wire mesh 160; is included,
At the upper end of the plate 121, a reinforcing part 123 for protecting the plate 121 protrudes around the long hole 124, and the upper part of the other side of the reinforcing part 123 has the resistance of the elastic sphere 125. A ramp 123a is formed to increase the
A wire connection portion 112 for reinforcing the lower end of the holding beam 110 by inserting a lower support wire 115 into the through hole 113 at one corner of the lower end of the plate 121 and the holding beam 110; further included,
At the top of the holding beam 110, it is fixed with a fastener 153, and a wire seating groove 151 is formed on one side so that the upper support wire 155 is seated, and the upper support wire is formed at the top of the wire seating groove. Cap 150 so that the locking device 152, which prevents easy separation, is rotated around the hinge axis; preventive measure for absorbing falling object shock, characterized in that it is included.
The method of claim 1,
The plate 121 and the other lower corner of the holding beam 110 have a support piece 111 that reinforces the lower end to secure the bearing capacity when the holding beam 110 is bent outward; shock absorption of falling objects, characterized in that it is further included. preventative measures. delete delete delete

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