KR101760369B1 - Device for Absorbing the Impact of a Fallen Object - Google Patents

Abstract

A fall shock absorber is provided.
The present invention relates to an apparatus for absorbing and mitigating an impact force transmitted to a wire rope connected to a wire net capturing a falling object, characterized in that a first draw-out hole, one end of which is drawn out to the outside via a first connection hole, At least one rope supporting member formed at a middle portion of a length of the wire rope, the rope supporting member having a second drawing hole through which the other end of the wire rope is drawn out to the outside via a second connecting hole; A restraining unit restricting the wire rope to contact the outer surface of the rope support corresponding to the first connection hole and the second connection work; And a preliminary cut portion formed on the rope support corresponding to the first take-out hole and the second take-out work so that an external force due to the impact energy of the fallen matter trapped in the wire net is concentrated and cut by an external force equal to or higher than a predetermined stress do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a shock absorber,

The present invention relates to a device for absorbing impact caused by a falling object, and more particularly to a device for absorbing a shock caused by a falling object, which is connected to a wire net capturing an object to be captured such as debris, The present invention relates to a shock absorbing device for falling objects which can prevent disconnection by mitigating impact energy transmitted to a wire rope,

Generally, facilities such as protective fences or wire nets (protecting nets) that protect against falling objects such as debris, rocks, and driftwood are installed in the valley or the road so that the traffic obstacles , Damage to road structures, property damage and loss of life.

The function of this anti-rockfall facility is to prevent rockfall movement by absorbing the energy of rockfall and to prevent falling rocks or debris from falling into roads or residential areas, Is a basic function.

A typical example of the rockfall prevention facilities is a structure for preventing rockfall using a wire net. The rockfall is covered with a rock surface having a possibility of rockfall and a cut surface of the rock wall by using a wire having a slight elasticity, It is a structure to prevent rockfall and prevent rocks and debris from being introduced to the lower part of the prevention network.

The basic form of the anti-rocking wire net is to wire the netted wire net using the wire rope connected to the ground and the ground fixed to the ground in a networked state by intersecting a plurality of wires, This is because the structure of the rock is firmly fixed, so that the relaxation of the discontinuity surface is deepened by rainfall, weathering, and the action of the tree roots, and the kinetic energy of the rock is suppressed by the trapping effect of the rock in a place where rockfall is likely to occur.

However, when such fallen wire net is caught by falling objects such as rockfall or debris, it is subjected to load energy intensively at the points of mutual intersection between the wire net and the wire rope by the kinetic energy of the fallen matter trapped in the wire net The connection point between the wire net and the wire rope is deformed due to the concentrated load, and the impact load of fallen objects falling down from the valley or slope, falling objects such as debris, The wire rope connected to the wire net is disconnected to lose the function of preventing falling objects.

In addition, there is a problem that the wire net becomes loose as a whole, and the rock surface and the cut surface of the rock wall, which are likely to fall down, can not be stably prevented from falling down.

(Patent Document 1) KR10-0659372 B1

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a wire net which catches fallen objects falling down along a slope or a valley, fallen objects such as debris or debris, It is easy to adjust the length of the wire rope to reduce the impact energy, and it is easy to adjust the length of the wire rope. And to provide a shock absorbing device for falling objects which can be easily installed and which can reduce maintenance costs after installation and construction.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

As a specific means for achieving the above object, a first preferred embodiment of the present invention is an apparatus for absorbing and absorbing an impact force transmitted to a wire rope connected to a wire net capturing a falling object, wherein one end of the wire rope And a second outflow hole is formed through the other end of the wire rope and is drawn out to the outside through a first connection hole formed on the outer surface of the first connection hole, At least one rope support disposed at the middle of the length of the wire rope; A restraining unit restricting the wire rope to contact the outer surface of the rope support corresponding to the first connection hole and the second connection work; And a preliminary cut portion formed on the rope support corresponding to the first take-out hole and the second take-out work so that an external force due to the impact energy of the fallen matter trapped in the wire net is concentrated and cut by an external force equal to or higher than a predetermined stress And a shock absorbing device for absorbing the shock.

A second preferred embodiment of the present invention is an apparatus for absorbing and mitigating an impact force transmitted to a wire rope connected to a wire net capturing a falling object, characterized in that a first rope fastener in contact with one end of the wire rope is fixed And a second fixing hole through which the second fixing rope which is in contact with the other end of the wire rope is fixed is formed on the outer surface so as to penetrate the first fixing hole on the outer surface, A rope support; A restraining portion for restraining the wire rope to contact the outer surface of the rope support corresponding to the first fixing hole and the second fixing work; The first fixing hole facing the restraining portion and the second fixing work corresponding to the second fixing work are formed on the rope supporting body so that the external force caused by the impact energy of the falling matter trapped in the wire net is concentrated and cut by an external force equal to or greater than a predetermined stress A preliminary cutting section; And a shock absorbing device for absorbing the shock.

Preferably, the restraining portion may include a first restraining hole formed through the outer surface of the rope support body to receive the wire rope, and a second restraining hole adjacent to the restraining hole.

Preferably, the restricting portion may include a third fixing hole penetrating the outer surface of the rope support body and having at least one third rope fixing member, which is in contact with the wire rope, correspondingly inserted and fixed.

Preferably, the restraining portion may include a rope arrangement groove formed in the outer surface of the rope support body and in which the wire rope is inserted.

Preferably, the preliminary cut portion may include at least one cutting through-hole formed through the rope support.

Preferably, the preliminary cut portion may include at least one notch recessed in the width direction at a predetermined depth in the rope support.

Preferably, the pre-cut portion may include a narrower portion that is narrowly formed with a width smaller than a width of the rope support.

Preferably, the rope support includes an inner first draw-out hole and an inner first connection hole formed in the inner side of the rope support through the wire rope and passing through the inner second draw-out hole and the inner second connection hole, And an inner rope support forming at least one inner preliminary cut portion between the inner first draw-out hole and the inner second draw-out work.

Preferably, the wire rope extending tangentially to the outer surface of the rope support may form an installation angle that is relatively less than 90 degrees with respect to the outer surface of the rope support.

More preferably, the installation angle may be an acute angle.

The present invention as described above has the following effects.

(1) By providing a rope support having a preliminary cut portion in the middle of the length of the wire rope connected to the wire net capturing the fallen object in the event of occurrence of the fallover, a relatively large fall impact energy is transmitted to the rope support through the wire rope It is possible to alleviate the external force caused by the impact energy transmitted directly to the wire rope and to prevent the wire rope from being blown off and to prevent the secondary fall accident caused by the wire rope blowing accident .

(2) It is easy to adjust the length of the wire rope to reduce the impact energy transmitted to the wire net when a falling material occurs, and it is easy to install and assemble in the field, can do.

1 is an overall perspective view showing a fall shock absorber according to a first embodiment of the present invention.
FIG. 2 illustrates a state where a wire rope is connected to a drop shock absorbing device according to the first embodiment of the present invention,
(a) shows a state before the preliminary cut portion is cut,
(b) shows a state in which the preliminary cut portion is cut.
FIG. 3 is a perspective view of another embodiment of a shock absorbing device according to the present invention, in which another restricting portion is applied.
4A to 4C are block diagrams showing a preliminary cutting unit employed in the drop shock absorbing device according to the first embodiment of the present invention.
FIG. 5 is a configuration diagram further illustrating an inner rope support according to the first embodiment of the present invention.
6 is an overall perspective view showing a fall shock absorber according to a second embodiment of the present invention.
7 is a view showing a state where a wire rope is connected to a fall shock absorbing device according to a second embodiment of the present invention,
(a) shows a state before the preliminary cut portion is cut,
(b) shows a state in which the preliminary cut portion is cut.
FIG. 8 is a perspective view showing another restraining part applied to a fall shock absorbing device according to a second embodiment of the present invention. FIG.
9A to 9C are block diagrams showing a preliminary cutting unit employed in a drop shock absorbing apparatus according to a second embodiment of the present invention.
10 is a use state diagram of a fall shock absorber according to the first and second preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

As shown in FIGS. 1 and 2B, a fall shock absorber 100 according to a first preferred embodiment of the present invention includes a wire net (N) for capturing falling objects such as rocks, A restraining part 120 and a preliminary cutting part 130 so as to absorb and relieve an external force that is an impact energy directly transmitted to the wire rope R connected to the wire rope R, .

The rope support 110 may be a single-ended member having at least one or more intermediate rope Rs.

A first through hole 111 and a first connection hole 112 are formed through the outer surface of the rope support 110 at a predetermined distance so that one end of the wire rope R is connected to the first connection hole 112, And is drawn out to the outside through the first drawing-out hole 111. [

The second connection hole 112 is formed in the outer surface of the rope support 110 at a predetermined interval so that the other end of the wire rope R is connected to the second connection hole 113, And is drawn out to the outside in the direction opposite to the one end of the wire rope through the second draw-out hole (114).

At this time, the wire rope R drawn out to the outside through the first and second outflow holes 111 and 114 extends substantially in a tangential direction with respect to the ring-shaped outer surface of the rope support body 110, The rope direction is abruptly changed to form a bent portion in which the wire rope is caught when the wire rope is suddenly pulled.

The first and second outflow holes and the first and second connection holes are formed through a circular hole having an inner diameter corresponding to the outer diameter of the wire rope, but the present invention is not limited thereto. Or an elliptical or polygonal through-hole having an inner diameter of the through hole.

Accordingly, the wire rope R, which is connected to the wire net N capturing the fallen matter and supports the wire rope N so that the wire rope N is held in a taut state in the unfolded state, passes through the first and second connection holes 112 and 113, And two outlets 111 and 114 so that the wire rope is hooked and connected to the inside of a rope support corresponding to the first connection hole and the first outgoing construction and the second connection hole and the second outgoing construction.

In this case, a wire rope (not shown) is hooked between the first draw-out hole 111 and the first connection hole 112 and between the second draw-out hole 114 and the second connection hole 113 so as to be caught in the inside of the rope support The external force due to the impact energy generated when capturing the fallen matter in the wire net N is transmitted to the rope support 110 through the wire rope R. [

The first and second through holes 111 and 114 and the first and second connection holes 112 and 113 are formed through a circular hole having substantially the same size as the outer diameter of the wire rope. However, the present invention is not limited thereto, As shown in FIG.

The rope support 110 may be made of a resin or a metal material. The rope support 110 may have a predetermined length But it is not limited thereto, and it may be formed in an elliptical shape or a polygonal shape.

The outer surfaces of the wire rope R and the rope support 110 drawn out in opposite directions to each other through the first and second extraction holes 111 and 114 are formed at an angle of relatively less than about 90 degrees, When the external force is generated due to trapping of the fallen matter in the wire net, the wire rope R is pulled out in both directions without generating a latching force at the bent portion of the wire rope R, which is turned in contact with the first and second outflow holes 111 and 114 Can be prevented.

The restraining portion 120 is positioned between the first connection hole 112 and the second connection hole 113 so that the wire rope R contacts the outer surface of the corresponding rope supporting member 110, Thereby restraining the support 110 from escaping from the rope support.

The restricting portion 120 is formed between the first connection hole 112 and the second connection hole 113 and extends through the outer surface of the corresponding rope supporting member 110, A first restraining hole 121 through which the rope enters and passes inside the rope support body and a second restraining hole 122 adjacent to which the wire rope advances outward from the inside of the rope support body.

At this time, the first and second restricting holes 121 and 122 are formed to pass through the outer surface of the rope support body opposite to the pre-cut portion.

Accordingly, the wire rope connected to the rope support body by the first and second outflow holes 111 and 114 and the first and second connection holes 112 and 113 is connected to the outer surface of the rope support body by the first and second restraining holes. It is tied up so that it can not come off.

The length of the wire rope R extending along the outer surface of the rope support body can be secured or shortened according to the outer diameter of the rope support body 110.

The external force is transmitted to the wire rope R due to the impact energy of the falling material trapped in the wire net when the falling material is generated. When the preliminary cut portion 130 is cut off and cut off by the restraining portion, The wire rope R securing the length of the rope while being restrained is deployed in both directions together with the rope support to absorb the impact force.

The restricting portion 120 has been described as being provided with a pair of first and second restricting holes 121 and 122 on the outer surface of the rope support corresponding to the first connection hole and the second connection work, But the present invention is not limited thereto and one or three sets may be provided.

In addition, the restricting portion 120 is illustrated as being provided with the first and second restricting holes 121 and 122 formed to penetrate through the wire rope, but the present invention is not limited thereto. As shown in FIG. 3, And a rope arrangement groove 123 formed between the first connection hole 112 and the second connection hole 113 and recessed in the outer surface of the corresponding rope support body 110, (R) can be restrained while correspondingly inserted and arranged.

The wire rope R may be recessed at a depth substantially equal to the outer diameter of the wire rope R or may be recessed at a depth relatively smaller than the outer diameter of the wire rope R, The entire or a part of the cross section of the wire rope is correspondingly inserted in the rope arrangement groove formed between the connection hole 112 and the second connection hole 113 and recessed in the outer surface of the corresponding rope support body 110, So as not to deviate from the outer surface of the base plate.

It is preferable that the restricting portion 120 is formed in the remaining region except for the formation region of the rope support member in which the first and second extraction holes and the first and second connection holes are formed.

The spacing between the first and second fixing holes 121 and 122 formed in the restricting portion 120 through the outer surface of the rope supporting member 110 or the spacing between the rope fixing grooves may be long or short, The length of the rope R resting on the outer surface of the rope support can be adjusted.

The preliminary cutting unit 130 may be formed in various forms in the rope supporting member 110 between the first extraction hole 111 and the second extraction hole 114 to capture the wire net N The external force resulting from the impact energy of the falling object is concentrated through the wire rope and cut or broken by an external force equal to or higher than a predetermined stress.

The preliminary cut portion 130 is designed to be cut by an external force equal to or higher than a predetermined stress at the time of occurrence of the drop material. The preliminary cut portion 130 is formed by cutting the first take-out hole 111 and the second take- And at least one cut-through hole 131 formed through the rope support 110 between the first and second support rods 114.

Here, the pre-cut portion 130 is illustrated as being provided with a plurality of through holes 131 for cutting that are formed in the rope support 110 at predetermined intervals in the width direction, but the present invention is not limited thereto, And at least one through-hole 131 for cutting, which is formed at the center of the width of the support 110 in a circular, elliptical or polygonal manner.

At this time, the cutting threshold value of the preliminary cutting portion 130 provided as the through hole for cutting in the rope support body 110 is changed by changing the number and interval of the cutting through-hole 131, so that the impact energy And the inner diameter of the through hole for cutting formed through the rope support 110 may be set to be large or small so that it can be set in advance according to the impact energy of the falling object expected for each installation condition.

4b, the pre-cut portion 130 is formed on the inner or outer surface of the corresponding rope support 110 between the first and second outflow holes 111 and 114 in the width direction And at least one notch 132 formed to have a certain depth of depression.

At this time, the cutting threshold value of the preliminary cut portion 130 provided as the notch 132 in the rope support 110 changes the number of formed notches or changes the formed depth of the notch, It can be set in advance according to the energy.

4c, the preliminary cut portion 130 may have a width smaller than the width of the corresponding rope support 110 between the first and second outflow holes 111 and 114, As shown in FIG.

The cutout through hole 131 may be formed in the narrow portion 133 or may be integrally formed by selectively recessing the notch 132.

At this time, the cutting threshold value of the preliminary cut portion provided in the narrow width portion 133 of the rope support member may be changed by changing the number of the narrow width portions or by changing the width size of the narrow width portions, It can be set in advance.

Accordingly, when a fall object separated from a slope or a drop falling at a high spot is captured by a wire net N connected to the wire rope, the wire rope (R The external force is transmitted to the rope support via the wire rope, so that the cutting through hole 131 and the notch 131 are formed between the first draw-out hole 111 and the second draw-out hole 114, Stress is concentrated on the preliminary cut portion 130 provided in any one of the narrow portion 132 and the narrow portion 133.

When the stress concentrated on the preliminary cut portion becomes greater than a preset external force, the preliminary cut portion 130 is cut off due to an external force, so that the ring-shaped rope support 110 is switched to a substantially plate- Thereby reducing the impact transmitted to the wire rope R connected to the wire net N and preventing a secondary drop accident caused by breaking the wire rope due to excessive impact energy will be.

5, an inner first draw-out hole 111a passing through the wire rope R through the inner side of the rope support 110, The inner second through hole 114a and the inner second connection hole 113a are formed through the first connection hole 112a and the inner first through hole 111a and the inner second through hole 114a, At least one inner rope support 110a forming an inner pre-cut 110a between the inner pre-cuts 110a.

 The inner pre-cut part 130a provided in the inner rope support 110a has the same function as the pre-cut part 130 provided in the rope support 110 and performs the same function. do.

Accordingly, when the falling material is generated, the preliminary cut portion is firstly cut by the stress concentrated on the preliminarily cut portion 120 of the rope support 110 connected to the wire rope, and then the inner preliminarily cut portion of the inner rope support 110a The external force transmitted to the wire rope connected to the wire net capturing the fallen object in the event of the occurrence of the falling object is transmitted to the preliminary cut portion 130 of the rope support 110 and the inner rope support 110a The inner preliminarily cut portions 130a of the inner preliminarily cut portions 130a are sequentially cut off.

6 to 7B, the fall shock absorber 200 according to the second preferred embodiment of the present invention includes the rope support 210, the restricting portion 220, and the preliminary cut portion 220, as in the first embodiment. (230).

A first fixing hole 211 through which a first rope fixing member 212 is inserted and fixed and which is in contact with one end of the wire rope R is correspondingly formed on an outer surface of the rope supporting member 210, And a second fixing hole 213 through which the second rope fixing member 214 in contact with the other end of the rope R is inserted and fixed is formed through the outer surface.

The first and second fastening holes 211 and 213 are formed by a pair of circular holes so that the first and second fastening fasteners having a pair of male threaded portions are respectively inserted into the first and second fastening holes 211 and 213. Through the first and second fastening holes 211 and 213, The fastening members 212a and 214a, such as nut members, are coupled to the respective threaded portions of the first and second rope fasteners.

Although the first and second rope fasteners 212 and 214 are illustrated as being U-shaped ebola-type fasteners, the first and second rope fasteners 212 and 214 are not limited thereto and may be of various types Fixtures may optionally be used.

At this time, the wire rope R, which is turned in contact with the first and second rope fasteners 212 and 214, extends in a substantially tangential direction with respect to the ring-shaped outer surface of the rope support body 110, The rope direction is suddenly switched between the ropes, thereby forming a bending portion where the wire rope is caught in a sudden pulling.

Accordingly, the wire rope R, which is connected to the wire net N capturing the fallen matter and supports the wire net N so as to maintain the wire net N in a stretched state, is fixed to the first and second fixing holes formed in the rope support, 2 The rope fixture is in contact with the jam.

In this case, an external force due to the impact energy generated when capturing the fallen matter in the wire net N is hooked and connected by the wire rope in contact with the inside of the first and second rope fasteners assembled to the outside of the rope support 210 And is transmitted to the rope support 110 through the wire rope R.

The outer surfaces of the wire rope R and the rope support 110 which are drawn out in opposite directions to each other in contact with the first and second rope fasteners 212 and 214 are relatively smaller than about 90 degrees as in the first embodiment When an external force is generated due to trapping of falling matter in the wire net by forming an angle, preferably an acute angle, the wire rope R does not generate a latching force at the bent portion of the wire rope R, which is turned in contact with the first and second rope fasteners 212 and 214 It can be prevented from being pulled out in the both side directions as it is.

The restraining portion 220 is positioned between the first fixing hole 211 and the second fixing hole 113 so that the wire rope R contacts the outer surface of the corresponding rope supporting body 210, Thereby restraining the support 210 from escaping from the rope support.

The restricting portion 220 is formed between the first fixing hole 211 and the second fixing hole 213 so as to face the preliminary restraining portion and penetrate the outer surface of the corresponding rope supporting member 110, And a third fixing hole 221 into which at least one third rope fixing member 222 is inserted and fixed.

The third fixing hole 221 is formed by a pair of circular holes so that the third rope fixing member 222 having a pair of male threaded portions is inserted into the third fixing hole 221 like the first and second fixing holes, A fastening member 222a such as a nut member is coupled to each of the male threads of the third rope fastener exposed through the inside of the rope support.

Accordingly, the wire rope, which is switched in the direction of contact with the first and second rope fasteners 212 and 214, is restrained by the third rope fastener 222 so as not to come off the outer surface of the rope support body.

Although the restricting part 220 is shown as a third rope fixing part 222 which is coupled to the third fixing part 221 formed through the rope supporting part 210, 8, a rope arrangement groove 223 formed between the first fixing hole 211 and the second fixing hole 213 and formed on the outer surface of the corresponding rope supporting body 210 is provided, The wire rope R can be restrained while correspondingly inserted and arranged in the groove 223.

The pre-cut part 230 is formed in various shapes in the corresponding rope support 210 between the first fixing hole 211 and the second fixing hole 213 corresponding to the restricting part as in the first embodiment An external force resulting from the impact energy of the fallen matter trapped by the wire net N is concentrated through the wire rope when the falling material is generated, and is cut or broken by an external force equal to or higher than a predetermined stress.

9A, the preliminary cut portion 230 is designed to be cut by an external force equal to or higher than a predetermined stress at the time of occurrence of a fall, and the preliminary cut portion 130 is formed by cutting the first and second fastening holes 211, And at least one through hole 231 for cutting that is formed through the rope support 210 corresponding to the space between the upper and lower ropes 213.

9B, the preliminary cut portion 230 may be provided on the inner or outer surface of the corresponding rope support 210 between the first fixing hole 211 and the second fixing portion 213 in the width direction And at least one notch 232 formed to have a predetermined depth recess.

9C, the preliminary cut portion 230 may be narrowed to a width smaller than the width of the corresponding rope support 210 between the first fixing hole 211 and the second fixing hole 213 As shown in FIG.

Accordingly, when a fall object separated from a slope or a drop falling at a high spot is captured by a wire net N connected to the wire rope, the wire rope (R The external force is transmitted to the rope support through the wire rope, so that a cutting through hole 231 and a notch 231 are formed between the first fixing hole 211 and the second fixing hole 213, Stress is concentrated on the preliminary cut portion 230 provided in any one of the narrow portion 232 and the narrow portion 233.

When the stress concentrated on the preliminarily cut portion becomes greater than a predetermined external force, the preliminarily cut portion 230 is cut off due to an external force, so that the ring-shaped rope support 210 is switched to a substantially plate- Thereby reducing the impact transmitted to the wire rope R connected to the wire net N and preventing a secondary drop accident caused by breaking the wire rope due to excessive impact energy will be.

As shown in FIG. 10, the fall shock absorbers 100 and 200 having the above-described configuration are constructed of an anchor pillar 20 fixed to a floor surface, a wire rope R connected to a vertical pillar 10 having a predetermined height, And a wire net (N) supported so as to be spread on the vertical strut with the wire rope so as to catch falling objects on the wire net (N) when a falling object is generated.

At this time, the drop shock absorbers 100 and 200 may be installed on a wire rope to which the wire net N is connected, or may be installed on a wire rope extending between the anchor support and the vertical support.

That is, the wire rope R is connected to the vertical column 10 so that the upper end and the lower end of the wire net N, which is formed in the form of a net, catch the fallen object when the falling object is generated, and both ends of the wire rope are connected to the anchor And can be fixedly connected to and fixed to the anchor member 20 to be fixed.

The upper and lower ends of the wire net N are connected to the wire rope R via a paper clip and are stretched and contracted to be convexed in a falling direction by an external force generated when capturing a falling object, A tension due to an external force is applied to a wire rope connected to the wire net via the wire clip when capturing a falling object.

Here, both side ends of the wire net may be connected to each other by a not shown clip directly or indirectly to the vertical support.

The drop shock absorbing apparatuses 100 and 200 are installed at regular intervals in the middle of the wire rope length via the rope support members 110 and 210 to install the fall prevention apparatuses at the construction site of slopes or high-rise buildings where frequent occurrence of falling objects occurs .

At this time, the wire rope R is restrained by the restricting portions 120 and 220 so as not to deviate from the outer surface of the rope support.

In this state, when a falling object falls down along a slope or falls in a self weight direction at the time of occurrence of a falling object, the wire net is elastically deformed by the impact energy of the falling object, and a wire rope An external force is transmitted.

That is, when tension is applied to the wire rope due to the impact energy of the falling object, the wire rope R is pulled to both sides in the longitudinal direction, and the wire rope is drawn out to the outside, Holes 133 and 233 are formed between the first fixing holes 211 and 211 and the second fixing holes 213 in the form of one of the notches 132 and 232 and the narrow portions 133 and 233 Stress is concentrated on the preliminary cut portions 130 and 230 to be cut.

At this time, if the stress concentrated on the preliminarily cut portion provided on the rope support is greater than a predetermined external force, the preliminarily cut portions 130 and 230 are cut off by the concentrated stress, As shown in FIG.

In this case, the wire rope R securing the wire length along the outer surface of the rope supports 110 and 210 can relieve the impact caused by the external force transmitted to the wire net N, It is possible to prevent disconnection due to energy, and to prevent a secondary drop accident in which the drop trapped in the wire net falls due to disconnection of the wire rope.

Although the shock absorbers 100 and 200 have been shown and described as being applied to a wire rope installed on a slope to prevent an accident caused by rockfall from being connected to a wire net capturing fallen objects such as rockfall, It is not a safety net or a wire rope which is connected to a safety net or fall prevention network installed to prevent a fall accident caused when a work is performed at a high place such as a high-rise building construction site or an industrial site, Or cable.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

110, 210: rope support
111: First drawer
112: first connection hole
113: second connection hole
114: 2nd drawer
212: first rope fastener
214: second rope fastener
120, 220:
121: First arresting ball
122: second restraining ball
123: rope placement groove
222: third rope fastener
130, 230:
131,231: Through-hole for cutting
132, 232:
133, 233:

Claims (9)

An apparatus for absorbing and mitigating an impact force transmitted to a wire rope connected to a wire net capturing a falling object,
Wherein the first rope has a first draw-out hole formed at an outer surface thereof through which one end of the wire rope is drawn out to the outside via a first connection hole, and the other end of the wire rope is drawn out to the outside via a second connection hole, At least one rope supporting member formed in the middle of the length of the wire rope so as to penetrate the outer surface of the rope supporting member;
A restraining unit restricting the wire rope to contact the outer surface of the rope support corresponding to the first connection hole and the second connection work;
And a preliminary cut portion formed on the rope support corresponding to the first take-out hole and the second take-out work so that an external force due to the impact energy of the fallen matter trapped in the wire net is concentrated and cut by an external force equal to or higher than a predetermined stress Wherein the shock absorbing device is a shock absorbing device. An apparatus for absorbing and mitigating an impact force transmitted to a wire rope connected to a wire net capturing a falling object,
A first fixing hole through which a first rope fixing member that is in contact with one end of the wire rope is fixed is formed on an outer surface and a second fixing hole through which a second rope fixing member which is in contact with the other end of the wire rope is fixed, At least one rope supporting member provided in the middle of the length of the wire rope adjacent to each other;
A restraining portion for restraining the wire rope to contact the outer surface of the rope support corresponding to the first fixing hole and the second fixing work;
The first fixing hole facing the restraining portion and the second fixing work corresponding to the second fixing work are formed on the rope supporting body so that the external force caused by the impact energy of the falling matter trapped in the wire net is concentrated and cut by an external force equal to or greater than a predetermined stress A preliminary cutting section; And a shock absorbing device for absorbing the shock. The method according to claim 1,
Wherein the restraining portion includes a first restraining hole formed through the outer surface of the rope support body and into which the wire rope enters, and a second restraining hole adjacent to the restraining hole, through which the wire rope advances. 3. The method of claim 2,
Wherein the restricting portion includes a third fixing hole formed through the outer surface of the rope support body and having at least one third rope fixing member in contact with the wire rope correspondingly inserted and fixed. 3. The method according to claim 1 or 2,
Wherein the restraining portion includes a rope arrangement groove formed on an outer surface of the rope support body and in which the wire rope is inserted and arranged. 3. The method according to claim 1 or 2,
Wherein the preliminary cut portion includes at least one cut-through hole formed through the rope support. 3. The method according to claim 1 or 2,
Wherein the preliminary cut portion includes at least one notch formed in the rope support so as to be recessed at a predetermined depth in the width direction. 3. The method according to claim 1 or 2,
Wherein the preliminary cut portion includes a narrow width portion narrowly formed with a width smaller than a width of the rope support body. The method according to claim 1,
Wherein the rope support member includes an inner first draw-out hole and an inner first connection hole formed in the inner side of the rope support through which the wire rope passes and passing through the inner second draw-out hole and the inner second connection hole, Further comprising an inner rope support which forms at least one inner spare cut-out portion in the first take-out hole and the second inner take-out work.

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