KR102502663B1 - Wire rope shock absorption and energy attenuation device for rock fall prevention facility - Google Patents

Abstract

The present invention relates to a wire rope shock absorption and energy attenuation device for a rock fall prevention facility. In particular, provided is the wire rope shock absorption and energy attenuation device for a rock fall prevention facility, which is characterized by comprising: a body (110) of which upper and lower ends respectively have a shrinkage hole (113); an entrance body (111) which protrudes from the upper and lower ends of the left and right sides of the body (110) in a mutually symmetrical manner, and allows a shrinkage pipe (130) to be inserted by means of an entrance (112) which mutually communicates with the shrinkage hole (113); a wire rope (120) of which the upper and lower ends are respectively inserted into the entrance (112) and the shrinkage hole (113), and one side has a wire rope anchor (125) which is finished with a compression pipe (127); and the shrinkage pipe (130) which is provided on the outer circumferential surface of the wire rope (120), and reduces resistance during the process of passing through the entrance (112) and the shrinkage hole (113) when an impact energy is generated to maximize the shrinkage effect. Therefore, according to the present invention, when an instant impact energy is generated at a rock fall prevention facility, a protection net facility and the like, resistance may be attenuated during the process in which the shrinkage pipe passes through the shrinkage hole, thereby maximizing the shrinkage effect. Consequently, the present invention provides a function as a main device for eliminating problems of the conventional rock fall prevention facility, the protection net facility and the like which are vulnerable to the instant shock energy.

Description

Wire rope shock absorption and energy attenuation device for rock fall prevention facility}

An embodiment of the present invention relates to a wire rope shock absorption and energy attenuation device for a fall prevention facility, and more particularly, when an instantaneous impact energy is generated in a fall prevention facility or a facility such as a protective net, a shrinkage pipe passes through a shrinkage hole. As a result of reducing the resistance in the process, the shrinkage effect can be maximized, and in particular, it can be expected to play a role as a major device to improve the problems of existing facilities such as fall prevention facilities or protective nets that are vulnerable to instantaneous impact energy. it did

As is well known, a fall prevention facility (落石防止施設) refers to a structure that protects roads or railroads from falling rocks, and includes fall prevention facilities such as a rockfall retaining wall, a fall prevention plan, a fall prevention net, and a fall prevention forest. .

The above-described rockfall prevention facility has a wire rope damping device for absorbing shock.

However, the above conventional wire rope attenuation device has several problems as follows.

That is, the prior art has a big problem that the wire rope damping device cannot absorb the impact of the impact applied to the fall prevention facility due to the complex action of friction and deformation.

In addition, the prior art has a problem that it cannot improve the shock absorbing ability while inducing impact energy by a simple and structural defect.

Meanwhile, the risk of graffiti and landslides has emerged as a serious social problem due to recent localized heavy rains.

In addition, large-scale forest fires that occur frequently recently reduce the organic matter layer in the soil, lowering the natural resilience and increasing soil erosion and surface runoff. As a result, it is reported that the probability of secondary disasters such as landslides and landslides due to concentrated rainfall in summer increases more than 10 times in forest fire areas.

However, most of the debris flow protection facilities installed in Korea have a big problem in that they do not sufficiently absorb impact energy.

That is, the prior art has a problem in that the support is bent or damaged due to the structural wire rope not absorbing the impact energy, so that it does not perform its function.

In addition, the prior art has a problem in that the energy buffering role cannot be expected because the impact energy cannot be sequentially reduced in the first and second steps.

In addition, the prior art cannot absorb the shock of the protection facility using only one wire rope, so the structure and installation are complicated, maintenance is difficult, and work time reduction and work productivity cannot be improved. A big problem arose that it could not be planted.

In particular, in the prior art, cracks occur during the frictional resistance of the pipe, so that the effect of reducing impact and energy cannot be maximized.

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. 2137360 (2020. 07. 18) has been registered. Republic of Korea Patent Registration No. 2269067 (2021. 06. 18) has been registered.

The present invention has been made to solve the problems of the prior art as described above, and the body, inlet, shrinkage hole, friction part, cutting part, first hollow part, connection part, second The first object is to have a hollow part, a wire rope, and a shrink pipe, and a second object of the present invention according to the above technical configuration is to prevent the shrink pipe when instantaneous impact energy is generated in facilities such as a fall prevention facility or a protective net. As a result of reducing the resistance in the process of passing through the shrinkage hole, the shrinkage effect can be maximized. The fourth purpose is that the wire rope shock absorption and energy attenuation device is a composite action of friction and deformation for impacts applied to falloff prevention facilities or protective nets. The fifth purpose is to induce shock and energy and improve the ability to absorb shock and energy, and the sixth purpose is to prevent cracks from occurring in the shrink pipe. The seventh purpose is to firstly dampen the impact of the wire rope shock absorber, and secondarily to dampen the shock of the protective net net shock absorber, so that the first and second sequential The eighth purpose is to effectively absorb the energy of falling rocks when they collide with the protection net to ensure high safety against the impact of falling rocks. The purpose is to make the structure and installation of the shock absorber simple, easy to maintain, reduce working time and improve work productivity so that workers can implant a good image, and the 10th object is to instill a good image. Wire rope shock absorption and An energy damping device is provided.

In order to achieve this object, the present invention relates to a wire rope shock absorption and energy attenuation device for a fall prevention facility, the wire rope shock absorption and energy attenuation device for the fall prevention facility, the body formed with shrinkage holes at the upper and lower ends, respectively; an inlet body protruding symmetrically from the left and right upper and lower ends of the body and having a constriction tube fitted through an inlet communicating with the constriction hole; A wire rope fitted at the upper and lower ends of the inlet and the shrinkage hole, and having a wire rope anchor finished with a compression tube on one side; And a shrinkage tube provided on the outer circumferential surface of the wire rope and having a resistance force attenuated in the process of passing through the entrance and the shrinkage hole when impact energy is generated to maximize the shrinkage effect. and an energy damping device.

As described above, the present invention is provided with a body, an inlet, a shrinkage hole, a friction part, a cutting part, a first hollow part, a connection part, a second hollow part, a wire rope, and a shrink pipe in the wire rope shock absorbing and energy damping device. made it possible

The present invention according to the above technical configuration is to maximize the shrinkage effect as a result of reducing the resistance in the process of passing the shrinkage pipe through the shrinkage hole when instantaneous impact energy is generated in facilities such as a fall prevention facility or a protective net. .

In particular, the present invention is intended to be expected to play a role as a major device for improving the problems of existing facilities such as fall prevention facilities or protective nets that are vulnerable to instantaneous impact energy.

In addition, the present invention allows the wire rope shock absorbing and energy damping device to absorb the impact and energy of the impact applied to the fall prevention facility or the protective net by a complex action of friction and deformation.

In addition, the present invention is to improve the ability to absorb impact and energy as well as induce impact and energy.

In particular, the present invention is to prevent cracks from occurring in the shrink tube to maximize the resistance damping effect.

In addition, the present invention allows the wire rope shock absorber to attenuate the impact first, and the protective net net shock absorber to attenuate the impact secondly, so that the impact energy can be sequentially reduced over the first and second.

In addition, the present invention is to ensure high safety against the impact of falling rocks by effectively absorbing the energy of falling rocks when they collide with the protective net.

In addition, according to the present invention, the structure and installation of the shock absorber are simple, the maintenance is easy, and the working time is shortened and the work productivity is improved, so that workers can plant a good image.

The present invention is a very useful invention that can greatly improve the quality and reliability of the wire rope shock absorbing and energy damping device and plant a good image 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 a wire rope shock absorption and energy of the fall prevention facility applied to the present invention
Configuration diagram of the first embodiment of the attenuation device.
Fig. 2 is an enlarged cross-sectional view of a main part of Fig. 1;
3 is a perspective view of another embodiment of a shrink tube applied to the present invention;
4 is a cross-sectional view of main parts of another embodiment of a shrinkage hole applied to the present invention.
5 is a wire rope shock absorption and energy of the fall prevention facility applied to the present invention
Configuration diagram of the second embodiment of the attenuation device.
6 is a wire rope shock absorption and energy of the fall prevention facility applied to the present invention
Configuration diagram of the third embodiment of the attenuation device.

The wire rope shock absorbing and energy damping device of the fall prevention facility applied to the present invention is 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 wire rope shock absorbing and energy damping device 100 (100a) (100b) of a fall prevention facility, and is configured as follows.

Among the jangji applied to the present invention, the wire rope shock absorbing and energy damping device 100 of the fall prevention facility is configured as follows.

That is, in the present invention, the body 110 is provided with constriction holes 113 formed at upper and lower ends, respectively.

In addition, the present invention protrudes symmetrically from the left and right upper and lower ends of the body 110, and the inlet body 111 is fitted with the contraction pipe 130 through the inlet 112 communicating with the contraction hole 113 is provided

At this time, it is preferable that the inlet 112 is tapered inclined to one side so that the shrink tube 130 can be easily inserted.

In the present invention, a wire rope 120 is provided with a wire rope anchor 125 inserted into the inlet 112 and the contraction hole 113 at the upper and lower ends, respectively, and finished with a compression pipe 127 on one side.

At this time, it is preferable that the symbol 126 is provided on the inner circumferential surface of the wire rope anchor 125 so that the wire rope 120 is curved.

In addition, the present invention is provided on the outer circumferential surface of the wire rope 120, and when impact energy is generated, the shrinkage pipe 130 to maximize the shrinkage effect by reducing the resistance in the process of passing through the inlet 112 and the shrinkage hole 113 ) is provided.

At this time, the constriction tube 130 is preferably made of an aluminum tube to maximize resistance attenuation and contraction effect.

In particular, the present invention forms a plurality of vertical parts 131 and broken parts 132 at regular intervals in the contraction tube 130, and cuts 115 in the contraction hole 113 through which the contraction tube 130 exits. is formed so that the cutting part 115 can absorb shock and attenuate energy in the process of continuously cutting the broken part 132.

In addition, it is preferable that a friction part 114 is provided on the inner circumferential surface of the shrinkage hole 113 applied to the present invention so that the outer circumferential surface of the shrinkage pipe 130 is easily contracted by frictional force.

In addition, a guide guide portion 111a is preferably provided at the lower end of the upper and lower inlets 112 or any one of the inlets 112 applied to the present invention so that the contraction pipe 130 is easily guided in the inlet 112.

On the other hand, the wire rope shock absorbing and energy damping device 100a of the fall prevention facility applied to the present invention is configured as follows (FIG. 5).

That is, the present invention is provided with a body (110a).

In addition, according to the present invention, contraction holes 113 are formed at the upper and lower ends of the body 110a, and mutually communicate with the contraction holes so that the contraction tube 130 is inserted at one side and the other side, respectively. Inlet 112 formed symmetrically with each other is provided

In the present invention, a wire rope 120 is provided with a wire rope anchor 125 inserted into the inlet 112 and the contraction hole 113 at the upper and lower ends, respectively, and finished with a compression pipe 127 on one side.

In addition, the present invention is provided on the outer circumferential surface of the wire rope 120, and when impact energy is generated, the shrinkage pipe 130 to maximize the shrinkage effect by reducing the resistance in the process of passing through the inlet 112 and the shrinkage hole 113 ) is provided.

In addition, the present invention is provided in the middle of the body (110a), and at least one first hollow part (116) is crushed when impact energy is generated, and the resistance is attenuated to maximize the contraction effect. A connection part (117) is provided. .

At this time, the wire rope shock absorbing and energy damping device 100a of the fall prevention facility is preferably made of metal, synthetic resin, or rubber material having tension so that the connection portion 117 is distorted.

On the other hand, the wire rope shock absorption and energy attenuation device (100b) of the fall prevention facility applied to the present invention is configured as follows (FIG. 6).

That is, the present invention is provided with a body (100b).

In addition, according to the present invention, contraction holes 113 are formed at the upper and lower ends of the body 110b, and mutually communicated with the contraction holes so that the contraction tube 130 is inserted at one side and the other side, respectively. Inlet 112 formed symmetrically with each other is provided

And the present invention is provided with a wire rope 120 equipped with a wire rope anchor 125, which is inserted into the inlet 112 and the contraction hole 113 at the upper and lower ends, respectively, and finished with a compression pipe 127 on one side.

In addition, the present invention is provided on the outer circumferential surface of the wire rope 120, and when impact energy is generated, the shrinkage pipe 130 to maximize the shrinkage effect by reducing the resistance in the process of passing through the inlet 112 and the shrinkage hole 113 ) is provided.

Further, in the present invention, a plurality of second hollow parts 118 are provided in the middle of the body 110b, and are crushed when impact energy is generated and the resistance is attenuated to maximize the contraction effect.

At this time, the wire rope shock absorbing and energy attenuating device 100b of the fall prevention facility is preferably made of metal, synthetic resin, or rubber material having tension so that the second hollow part 118 is distorted.

In particular, the body (100b) is preferably made of a spherical shape so as not to get caught in the equipment around the site.

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 wire rope shock absorption and energy attenuation device of the present invention constructed as described above is as follows.

First of all, the present invention prevents safety accidents by maximizing the shrinkage effect as a result of reducing the resistance in the process of passing the shrinkage pipe through the shrinkage hole when instantaneous impact energy is generated in facilities such as a fall prevention facility or a protective net. that was done to prevent it.

To this end, FIG. 1 applied to the present invention is a configuration diagram of a first embodiment of a wire rope shock absorbing and energy damping device 100 of a fall prevention facility applied to the present invention, and the following effects are exhibited.

First, the wire rope 120 and the shrink tube 130 provided on the outer circumferential surface thereof pass through the upper and lower inlets 112, the wire rope 120 passes through the shrink hole 113, and the shrink tube 130 is installed so as to come into contact with the inlet 112.

At this time, one end of the wire rope 120 is provided with a wire rope anchor 125 wound around a thimble 126 and finished with a crimping pipe 127 to connect to a separate falling rock prevention facility or facility such as a protective net. .

In the above state, the process of passing the shrinkage pipe 130 through the shrinkage hole 113 when instantaneous impact energy is generated in a state in which both ends or one end of the wire rope 120 are connected to a facility such as a fall prevention facility or a protective net As a result of reducing the resistance in the , it is possible to maximize the contraction effect.

In more detail, when the wire rope 120 is pulled by the generation of impact energy in a state where the front end of the shrink pipe 130 is in contact with the inlet 112, the inlet 112 is inclined so that the shrink pipe 130 is tapered. ) Along with being narrowed, it is contracted while passing through the contraction hole 113 so that the resistance is attenuated.

In addition, the shrinkage pipe 130 is contracted from 35mm in diameter to 30mm while passing through the inlet 112 and the shrinkage hole 113, and as a result, the resistance is reduced to provide an effect that maximizes the shrinkage effect. do.

On the other hand, FIG. 2 is an enlarged cross-sectional view of the main part of the shrinkage hole 113 of FIG. 1, and the shrinkage effect is further maximized by the friction of the friction part 114 in the process of the shrinkage tube 130 passing through the shrinkage hole 113. that made it possible

On the other hand, Figure 3 is a perspective view of another embodiment of the shrinkage pipe 130 applied to the present invention, Figure 4 is a cross-sectional view of the main part of another embodiment of the shrinkage hole (113) applied to the present invention, the shrinkage pipe 130 is a shrinkage hole In the process of passing through (113), shock absorption is alleviated. In particular, when the contraction pipe (130) passes through the contraction hole (113) while the cutting part (115) is inserted into the hollow part (131), the cutting part 115 continues to cut the fracture portion 132, resulting in mitigating the impact.

5 is a configuration diagram of a second embodiment of a wire rope shock absorbing and energy attenuating device 100 of a rockfall prevention facility applied to the present invention.

In the present invention, when the wire rope 120 is connected to a facility such as a fall prevention facility or a protective net, the resistance is attenuated in the process of the shrinkage tube 130 passing through the shrinkage hole 113 when an instantaneous impact energy is generated. It is as described above that the contraction effect can be maximized.

However, in the present invention, the connection part 117 is provided around the first hollow part 116 in the middle of the body 110a, and when impact energy is generated, at least one first hollow part 116 is crushed and the connection part 117 As it is bent, the resistance is attenuated, so that the contraction effect can be maximized.

6 is a block diagram of a third embodiment of a wire rope shock absorbing and energy attenuating device of a fall prevention facility applied to the present invention, and the operational effects are the same as described above, but only the following technical operational effects are different.

In the present invention, when the wire rope 120 is connected to a facility such as a fall prevention facility or a protective net, the resistance is attenuated in the process of the shrinkage tube 130 passing through the shrinkage hole 113 when an instantaneous impact energy is generated. It is as described above that the contraction effect can be maximized.

However, in the present invention, a plurality of second hollow parts 118 are provided in the middle of the body 110b, and when impact energy is generated, at least one second hollow part 118 is distorted and the resistance is attenuated to maximize the contraction effect. that made it possible

The present invention as described above is to maximize the shrinkage effect as a result of reducing the resistance in the process of passing the shrinkage pipe through the shrinkage hole when instantaneous impact energy is generated in facilities such as a fall prevention facility or a protective net, It is expected to play a role as a major device to improve the problems of facilities such as existing rockfall prevention facilities or protective nets that are vulnerable to negative impact energy.

The technical concept of the wire rope shock absorption and energy attenuation device of the present invention is that the same result can be repeated in practice, and in particular, by implementing the present invention, it can contribute to industrial development by promoting technological development, which is worth protecting There are enough.

<Description of symbols for main parts of drawings>
100: wire rope shock absorption and energy attenuation device
110, 110a, 110b: body
112: entrance
113: shrinkage hole
114: friction part
115: cutting part
116; 1st hollow part
117: connection part
118: second hollow part
120: wire rope
130: shrink tube

Claims (5)

It relates to a wire rope shock absorption and energy attenuation device (100a) of a fall prevention facility,
Body (110a);
Shrinkage holes 113 are formed at the upper and lower ends of the body 110a, and inlet 112 formed symmetrically with each other so that the shrinkage tube 130 is fitted at one side and the other side, respectively, by communicating with the shrinkage holes;
A wire rope 120 having a wire rope anchor 125 inserted into the inlet 112 and the contraction hole 113 at the upper and lower ends, and finished with a compression pipe 127 on one side;
Shrinkage pipe 130 provided on the outer circumferential surface of the wire rope 120 and to maximize the shrinkage effect by reducing resistance in the process of passing through the inlet 112 and the shrinkage hole 113 when impact energy is generated; and
It is provided in the middle of the body (110a), and at least one first hollow part (116) is crushed when impact energy is generated, and the resistance is reduced to maximize the contraction effect. Wire rope shock absorption and energy attenuation device for prevention facilities. It relates to a wire rope shock absorption and energy attenuation device (100b) of a fall prevention facility,
body (110b);
Shrinkage holes 113 are formed at the upper and lower ends of the body 110b, and inlet 112 is formed symmetrically with each other so that the shrinkage tube 130 is fitted at one side and the other side, respectively, by communicating with the shrinkage holes;
A wire rope 120 having a wire rope anchor 125 inserted into the inlet 112 and the contraction hole 113 at the upper and lower ends, and finished with a compression pipe 127 on one side;
Shrinkage pipe 130 provided on the outer circumferential surface of the wire rope 120 and to maximize the shrinkage effect by reducing resistance in the process of passing through the inlet 112 and the shrinkage hole 113 when impact energy is generated; and
Provided in the middle of the body (110b), a plurality of second hollow parts (118) to maximize the contraction effect by reducing the resistance force while being crushed when the impact energy is generated; wire rope impact of the fall prevention facility, characterized in that it is included Absorption and energy attenuation devices. delete delete delete

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