KR102260130B1 - A Fixation Implement for Falling Rock Prevention and Construction Method using the same - Google Patents

Abstract

The present invention relates to a fixture for a rockfall prevention net, which can bind crosswise a plurality of wire ropes for fixing a rockfall prevention net, can ensure the buffering and movability of the wire ropes, and can rotate in all directions to bring the rockfall prevention net into close contact with the ground, thereby firmly fixing the rockfall prevention net, and a method for constructing a falling rock prevention net by using the same. Particularly, a buffer member is formed to rotate up, down, left, and right and in both directions so that the rockfall prevention net and the wire ropes are brought into close contact with the ground, and the positions of the wire ropes and the rockfall prevention net, of which the positions are changed by tension when a rockfall occurs, can be returned to an original state thereof. In case of breakage or failure of the fixture, an elastic member and the buffer member that are respectively assembled and formed can be easily replaced.

Description

A Fixation Implement for Falling Rock Prevention and Construction Method using the same}

The present invention secures the cross-binding of a plurality of wire ropes for fixing the rockfall prevention net and secures buffering and fluidity of the wire rope, and as it rotates in all directions, the rockfall prevention net is closely attached to the ground to firmly fix the fallingrock prevention net. and a method of constructing a rockfall prevention net using the same.

Patent Document 001 discloses that the anti-falling rope buffer fixing device includes an anchor hole formed in the central portion so that the anchor bolt 20 is installed through it, and sliding balls formed long in the lateral direction on both sides of the anchor hole, respectively, An upper cover and a lower cover disposed to face each other, a rope connecting member positioned between the upper cover and the lower cover at a portion where the sliding ball is formed and moving along the sliding ball and connected to a fall prevention rope, the rope connecting member A buffer wing member that is installed to open or close a pair of each of the rope connection members in order to buffer the applied pressure, installed between a pair of the buffer wing members so that the buffer wing portion is maintained in an open state by an elastic force It proposes a technology including a buffer spring, a wing support for supporting the flared end of the buffer wing member so that the buffer wing member is buffered by the elastic force when the rope connection member is moved by the impact of the rock fall prevention rope.

Patent Document 002 is a base installed on an inclined surface through an anchor; Each is rotatably connected to the base, and a longitudinal rope and a transverse rope are respectively connected, and when tension is applied to the longitudinal rope and the transverse rope, the longitudinal rope and the transverse direction while rotating about the base as a center of rotation A longitudinal buffer plate comprising a longitudinal rope support and a transverse rope support for supporting a rope, wherein the longitudinal rope support and the transverse rope support are respectively rotatably laminated to the anchor for fixing the base and a transverse buffer plate, coupled to the longitudinal buffer plate and the transverse buffer plate to connect the longitudinal rope and the transverse rope to the longitudinal buffer plate and the transverse buffer plate, respectively, to connect the longitudinal rope and the transverse rope to the longitudinal buffer plate, respectively And it presents a technology comprising a rope fixing member for fixing to the transverse buffer plate.

Patent Document 003 includes a plurality of wire ropes arranged in the longitudinal direction with respect to the surface of the incision and the upper ends are respectively fixed to the upper end of the incision; A plurality of fasteners 300 fixed so that a screw portion is formed on the upper side and a wedge is formed at the bottom so as to be fixed to the surface of the incision, and a rhombus is continuously repeated on the surface of the incision; When connecting to each other, a space is formed in the middle, and a coupling hole is formed so that the screw part can pass through the center of the space, and the two wire ropes 200 are fitted on all sides of the corresponding surface while crossing through the space. Four guide grooves are formed so as to move, and a pair of upper and lower assembly parts coupled with fasteners; It is located in the space formed in the pair of assembly holes, a guide hole is formed in the center so that the screw part can pass, and a guide groove is formed on the outer peripheral surface so that the wire rope 200 can be slide-guided, and the upper and lower ends a guider on which a contact surface is formed to be in close contact with the inner surface of the assembly; While being screwed to the screw portion, a fastening nut for fixing the pair of assembly tools; presents a technology including a.

Patent Document 004 is an anchor body that is rooted and fixed in the ground; a cylindrical body portion in which a through hole 412 is formed in the center so that the anchor body is penetrated and a plurality of first insertion grooves are formed along the circumference into an outer circumferential surface into which an elastic member is inserted; a plurality of disks provided to be spaced apart from the outside of the body part by a predetermined interval, the outer peripheral surface of which is formed in a planar arc shape, and the outer surface guides the wire; the elastic member inserted into the first insertion groove to press the disk outward; a cover portion coupled to the upper portion of the body portion to cover the upper portion of the disk and having a through hole through which the anchor body is fitted and coupled; and a nut coupled to the anchor body protruding above the through hole of the cover part to fix the body part to the ground.

KR 10-1648567 B1 (08/09/2016) KR 10-1506327 B1 (March 20, 2015) KR 10-2012-0129415 A (28 November 2012) KR 10-1804166 B1 (November 28, 2017)

The present invention relates to a rockfall prevention net fixture capable of securing cross-binding of a plurality of wire ropes for fixing a rockfall prevention net and buffering and fluidity of the wire rope, and a method of constructing a rockfall prevention net using the same.

In order to solve the problems of the prior inventions, the present invention relates to a fixture for a rockfall prevention net, and a rockfall prevention net 100 installed on the outside of the slope 10 to prevent falling rocks; a wire rope 200 to prevent fixing and separation of the rockfall prevention net 100; A plurality of the wire rope 200 is formed in a contact position, the fixture 300 is fixed to the inclined surface (10); The anchor bolt 20 passes through the fixture 300 and is inserted into the slope 10; it consists of a configuration including.

The present invention is an invention for a fall prevention net fixture, and the rockfall prevention net 100 presented above; wire rope 200; fixture 300; Anchor bolt 20; the wire rope 200 in the invention consisting of a first wire 210 formed to cross the outside of the rockfall prevention net 100; A second wire 220 that connects the plurality of the rockfall prevention nets 100 in an oblique line and applies pressure to the fixture 300; is added.

The present invention is an invention for a fall prevention net fixture, and the rockfall prevention net 100 presented above; wire rope 200; fixture 300; Anchor bolt 20; In the invention consisting of the fastener 300, the plurality of first wires 210 are in contact with each, and a friction member 400 for reducing the frictional force of the first wire 210; It is formed on the upper portion of the friction member 400, the buffer member 500 for buffering the pressure of the second wire 220; is added.

The present invention is an invention for a fall prevention net fixture, and the rockfall prevention net 100 presented above; wire rope 200; fixture 300; An anchor bolt 20; the friction member 400 in the invention comprising: a friction roller 410 through which the anchor bolt 20 passes, and accommodating a part of the wire rope 200; It is formed to be spaced apart from the friction roller 410, and a separation prevention cover 420 for preventing separation of the wire rope 200; is added.

The present invention is an invention for a fall prevention net fixture, and the rockfall prevention net 100 presented above; wire rope 200; fixture 300; Anchor bolt 20; The buffer member 500 in the invention consisting of a rotating plate 510 rotating in the anchor bolt 20 penetrating through the center; a shock absorber 600 coupled to the rotating plate 510 and buffering the pressure of the wire rope 200; An adjustment hinge 650 for connecting the rotary plate 510 and the shock absorber 600 and adjusting the angle of the shock absorber 600; is added.

The present invention is an invention for a fall prevention net fixture, and the rockfall prevention net 100 presented above; wire rope 200; fixture 300; An anchor bolt 20; is formed in the shock absorber 600 in the invention consisting of, a fastening part 610 to which the wire rope 200 is fastened; An elastic part 640 formed at an end of the fastening part 610 and accommodating the elastic body 641 therein; is added.

The present invention relates to a rockfall prevention net construction method using a rockfall prevention net fixture, and in the rockfall prevention net construction method using the fixture 300 of claim 1, the hesitation step of installing the rockfall prevention net 100 on the slope 10 (S1100); After the hesitation step (S1100), a wire installation step (S1200) of installing a plurality of wire ropes 200 on the outside of the rockfall prevention net 100; After the wire installation step (S1200), a bolt installation step (S1300) of installing an anchor bolt 20 for drilling the slope 10; After the bolt installation step (S1300), the assembly step of assembling the fixture 300 to the anchor bolt 20 (S1400); After the assembling step (S1400), the fastening step of fastening the wire rope 200 to the fixture 300 (S1500); After the fastening step (S1500), a tension step (S1600) of tensioning the wire rope 200; consists of a configuration including.

The present invention is an invention for a rockfall prevention net fixture, the hesitation step (S1100) presented above; wire installation step (S1200); bolt installation step (S1300); assembling step (S1400); fastening step (S1500); Tension step (S1600); before the bolt installation step (S1300) to the invention consisting of, a drilling step (S1210) of drilling the slope 10; After the drilling step (S1210), a grouting step (S1220) of performing grouting on the drilling hole 11; is added.

The present invention is an invention for a rockfall prevention net fixture, the hesitation step (S1100) presented above; wire installation step (S1200); bolt installation step (S1300); assembling step (S1400); fastening step (S1500); Tension step (S1600); First assembly step (S1410) of assembling the friction member 400 for reducing the frictional force of the wire rope 200 to the anchor bolt 20 during the assembly step (S1400) in the invention consisting of ); After the first assembling step (S1410), a second assembling step (S1420) of assembling the buffer member 500 for buffering the pressure of the wire rope 200; is added.

The present invention is to be able to fix the point where a plurality of wire ropes intersect.

The present invention is to be formed at a position in contact with the wire rope formed in an oblique line to relieve the pressure and impact of the wire rope.

The present invention is to reduce the pressure of the wire rope generated when rockfall occurs.

The present invention is to facilitate the exchange and repair of the wire rope and the fixture as the fixture is assembled with the friction member and the buffer member.

The present invention is to ensure the fluidity of the wire rope when pressure and impact occurs on the wire rope formed vertically and horizontally.

According to the present invention, as the fixture rotates in all directions, it is possible to effectively prevent rockfall by attaching the rockfall prevention net to the ground.

According to the present invention, an elastic case surrounding the elastic body is formed to prevent foreign substances from entering the elastic body.

The present invention is to increase the density of the wire rope according to the double slope compression can be prevented from breaking by the cut rock.

Figure 1 is an exemplary view of a rockfall prevention net installed with a fixture of the present invention.
Figure 2 is an exploded perspective view of the fixture of the present invention shown in Figure 1;
3 is a cross-sectional view of a fixture of the present invention;
4 to 6 are state diagrams showing the fall prevention net fixture of the present invention.
7 to 9 are flowcharts of a method of constructing a rockfall prevention net using the rockfall prevention net fixture of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to describe in detail enough that a person of ordinary skill in the art can easily carry out the present invention.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. Objects exhibiting the same purpose and effect as the configuration presented in the examples correspond to equivalent replacement objects. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) The present invention provides a rockfall prevention net fixture, comprising: a rockfall prevention net 100 installed on the outside of a slope 10 to prevent falling rock; a wire rope 200 to prevent fixing and separation of the rockfall prevention net 100; A plurality of the wire rope 200 is formed in a contact position, the fixture 300 is fixed to the inclined surface (10); It includes a; penetrating the fixture 300, the anchor bolt 20 is inserted into the inclined surface (10).

(Example 1-2) In Example 1-1, the rockfall prevention net fixture of the present invention is characterized in that the rockfall prevention net 100 is formed of at least one of a hexagon and a rhombus, and is arranged in a radial shape. includes ;

(Embodiment 1-3) In Example 1-2, the rockfall prevention net fixture of the present invention includes; removing logging and floating stones from the slope 10 in order to prevent damage to the rockfall prevention net 100.

(Example 1-4) The fall prevention net fixture of the present invention according to Example 1-1, wherein the wire rope 200 is formed by twisting carbon and iron wire;

(Embodiment 1-5) The fixture of the rock fall prevention net of the present invention includes a drilling device for creating a perforation hole 11 formed by perforating the slope 10 in the embodiment 1-1.

(Example 1-6) The anchorage of the rock fall prevention net of the present invention is the method of Example 1-1, wherein the anchor bolt 20 is inserted into the perforation hole 11 and then fixed by injecting mortar. .

The present invention relates to a fixture for a fall prevention net. Specifically, it is for fixing the rockfall prevention net 100 for preventing the rockfall of the slope 10 from collapsing. This rockfall prevention net fixture is an anchor bolt 20 and a fixture 300 by drilling a plurality of perforation holes 11 in the slope 10 to fix the wire rope 200 formed on the outside of the rockfall prevention net 100 . can be installed At this time, the fixture 300 is assembled in various ways according to the shape and position of the wire rope 200 to be coupled to the anchor bolt 20 inserted into the perforation hole 11 . And the anchor bolt 20 does not mean only the known anchor bolt 20, and may be various fixing means capable of fixing the fall prevention net fixture. In addition, in order to prevent the slope surface 10 from being damaged by trees, floating stones, etc. when the rockfall prevention net 100 is installed, logging and floating stones are removed. When the fall prevention net 100 is installed after maintenance of the slope 10 in this way, the wire rope 200 is installed on the outside of the fall prevention net 100 in the longitudinal and lateral directions. And a plurality of fasteners 300 are installed on the slope 10, and fixed to cross the wire ropes 200 installed in the longitudinal and transverse directions, or to correspond to each other by installing the wire ropes 200 in the longitudinal direction obliquely. it will be fixed In addition, the fixture 300 is coupled to the anchor bolt 20 inserted into the slope 10 , and the anchor bolt 20 has one end fixed to the slope 10 and the other end is exposed to the outside of the slope 10 . .

Accordingly, as the anchor bolt 20 exposed to the outside is formed to pass through the center of the fixture 300 , the fixture 300 is fixed to the slope 10 and the wire rope 200 is moved from the outside of the fall prevention net 100 . can be fixed In this way, after the wire rope 200 is installed in the fixture 300, the wire rope 200 is tensioned so that the rockfall prevention net 100 is installed in contact with the slope 10, so that the rockfall falls to the bottom due to earthquake, ground weakness, etc. to prevent damage from occurring.

In general, a wire rope 200 is formed on the outside of the rockfall prevention net 100 to prevent the separation of the rockfall prevention net 100 , and a clip is used to couple the plurality of wire ropes 200 to each other. On the other hand, the fall prevention net fixture of the present invention is formed by assembling a plurality of fixtures 300 to an anchor bolt 20 for fixing the slope 10 by punching it, thereby reducing the construction process and improving the construction time and efficiency. can do it Such a fixture 300 is assembled according to the installation position of the anchor bolt 20, and when the fixture 300 is damaged or deformed due to a rockfall or external impact, it is easy to maintain by separating and assembling only the damaged part. can do.

Accordingly, the fall prevention net fixture of the present invention has a feature of preventing the fallout of the rockfall prevention net 100 and preventing the falling rock from collapsing as the fixture 300 is installed on the slope 10 .

(Embodiment 2-1) The present invention relates to a fixture for a fall prevention net, and in Embodiment 1-1, the wire rope 200 is a first wire 210 formed to cross the outside of the fall prevention net 100. ); and a second wire 220 that connects the plurality of the rockfall prevention nets 100 in an oblique line and applies pressure to the fixture 300 .

(Example 2-2) In Example 2-1, the rockfall prevention net fixture of the present invention includes: a vertical wire 211 formed on the first wire 210 and formed vertically of the rockfall prevention net 100; It is formed to be perpendicular to the vertical wire 211, and a horizontal wire 212 formed horizontally of the rockfall prevention net 100; includes.

(Embodiment 2-3) The fall prevention net fixture of the present invention according to Embodiment 2-2, wherein the first wires 210 are formed at equal intervals.

(Embodiment 2-4) The fall prevention net fixture of the present invention according to Embodiment 2-1, wherein the second wire 220 is installed in the same manner as the first wire 210 and fixed in a zigzag manner. do.

The present invention relates to a wire rope 200, and specifically, the wire rope 200 is formed by twisting a metal steel wire such as carbon, and has rigidity against tension. The wire rope 200 is installed on the slope 10 on which the rockfall prevention net 100 is installed, and the first wire 210 installed from the top of the slope 10 toward the bottom at equal intervals is formed. At this time, the first wire 210 is formed at equal intervals from the side of the vertical wire 211 and the rockfall prevention net 100 that extend from the top to the bottom of the rockfall prevention net 100 to fix the falling rockfall prevention net 100 and are horizontally formed. An extended horizontal wire 212 is formed. The vertical wire 211 connects the upper part and the lower part of the rockfall prevention net 100 , and is formed to overlap or close to each other and may be used as the second wire 220 . And the horizontal wire 212 connects both sides of the rockfall prevention net 100 to each other, and when the vertical wire 211 and the horizontal wire 212 are tensioned at one end, respectively, the vertical wire 211 and the horizontal wire 212 are will cross

And the second wire 220 is to connect the position where the vertical wire 211 and the horizontal wire 212 intersect with an oblique line, and the second wire 220 is the same as the vertical wire 211, the rockfall prevention net 100. After extending from the upper part to the lower part, it may be fixed in a zigzag according to the position of the fixture 300 .

Therefore, the wire rope 200 of the present invention is installed vertically and horizontally on the outside of the rockfall prevention net 100, and a plurality of vertically installed wires are formed in a diagonal line to fix the falling rockfall prevention net 100 in a radial form. has the characteristics of

(Example 3-1) The present invention relates to a fixture for a rock fall prevention net, and in Example 2-1, in the fixture 300, a plurality of the first wires 210 are in contact with each other, and the first wire 210 ) a friction member 400 to reduce the frictional force; It is formed on the upper portion of the friction member 400, the buffer member 500 for buffering the pressure of the second wire 220; includes.

(Example 3-2) In Example 3-1, the anchor bolt 20 of the anchor bolt 20 penetrates the center of the fixture 300, and the friction member 400 and the buffer member (500) is sequentially assembled; includes.

(Example 3-3) In Example 3-2, the fixture of the rockfall prevention net of the present invention, wherein the fixture 300 is formed of a metal material; includes.

(Example 3-4) In Example 3-2, the rock fall prevention net fixture of the present invention is formed between the friction member 400 and the buffer member 500, and the first wire 210 and the first It includes; a partition plate partitioning the two wires (220).

(Example 3-5) The fall prevention net fixture of the present invention according to Example 3-1, wherein the friction member 400 rotates according to the movement of the first wire 210;

(Embodiment 3-6) The rock fall prevention net fixture of the present invention according to Embodiment 3-1, wherein the friction member 400 and the buffer member 500 are formed of a module; includes.

The present invention relates to a fixture 300 , and specifically, the fixture 300 is to be installed at equal intervals vertically and horizontally on the slope 10 to fix the wire rope 200 . The fixture 300 is in contact with the first wire 210, the vertical wire 211 and the horizontal wire 212 when the cross each other, the friction member 400 is disposed vertically is formed. And the fixture 300 is formed of a metal material to prevent separation from or damage to the slope 10 by the wire rope 200, and as the anchor bolt 20 penetrates the center, the wire rope 200 can be rotated at a predetermined angle. And a fixing nut fastened to the anchor bolt 20 is formed on the upper portion of the fixture 300 to prevent the fixture 300 from being separated from the anchor bolt 20 . Such a fixture 300 is formed with a friction member 400 for reducing the frictional force of the first wire 210, and the friction member 400 is a wire rope as the vertical wire 211 and the horizontal wire 212 are coupled. (200) rotates by the tension generated in it. In addition, the buffer member 500 is sequentially assembled with the friction member 400 , and the friction member 400 is formed in the lower portion or the buffer member 500 is formed in the lower portion. At this time, the friction member 400 and the buffer member 500 are formed by being partitioned, and as they are partitioned by the partition plate, the frictional force and pressure acting on the first wire 210 and the second wire 220 can be reduced, respectively. have. The friction member 400 and the buffer member 500 may be formed in a module, and it is possible to reduce the process of installing the operator on the anchor bolt 20 .

Therefore, the fixture 300 of the present invention is fastened to the anchor bolt 20 by fixing the first wire 210 and the second wire 220, respectively, and as each fixed to the inclined surface 10 of various shapes, the wire rope Regardless of the shape of the slope (10), the 200 is characterized by adhering and fixing the rockfall prevention net (100).

(Example 3-7) In Example 3-1, the friction member 400 and the buffer member 500 include a plurality of the first wires 210 and a plurality of the first wires 210 according to Example 3-1. The two wires 220 are formed to be separated from each other at each intersecting position.

(Example 3-8) In Example 3-7, the rockfall prevention net fixture of the present invention is fixed to the slope 10 at a position where the plurality of second wires 220 intersect each other. include; what is not.

The present invention relates to a buffer member, and specifically, the friction member 400 and the buffer member 500 are separated from each other at positions where the plurality of first wires 210 and the plurality of second wires 220 cross each other, respectively. will be formed When the second wire formed in an oblique line is formed at a position in contact with each other, the buffer member 500 is formed spaced apart from the slope 10 without fixing the anchor bolt 20 to the slope 10, or only a part of the buffer member is inserted. It is formed to prevent movement of 500 . In detail, the anchor bolt 20 is fixed to the slope 10 in the form of a grid, and the first wire 210 and the second wire 220 are fixed by the friction member 400 and the buffer member 500 . and the second wire 220 formed between the plurality of anchor bolts 20 is fixed by the buffer member 500 . At this time, the buffer member 500 is not fixed to the slope 10 , but secures the fluidity in the second wire 220 by fixing the second wire 220 . However, depending on the topography of the slope, the buffer member 500 is inserted with a short length of the anchor bolt 20 so that only a portion is coupled to the slope. And the buffer member 500 has a fixed shaft formed to replace the anchor bolt 20 to fix the upper and lower portions of the buffer member 5000, respectively.

(Example 4-1) The present invention relates to a fall prevention net fixture, and in Example 3-1, in the friction member 400, the anchor bolt 20 penetrates, and a part of the wire rope 200 Friction roller 410 for accommodating; It is formed to be spaced apart from the friction roller 410, and a separation prevention cover 420 for preventing separation of the wire rope 200; includes.

(Embodiment 4-2) The fall prevention net fixture of the present invention according to Embodiment 4-1, wherein the friction roller 410 rotates according to a tension force acting on the first wire 210; includes.

(Example 4-3) In Example 4-1, the rock fall prevention net fixture of the present invention is formed on the friction roller 410, and includes a receiving groove 411 for accommodating a part of the wire rope 200; and a through hole 412 through which the anchor bolt 20 passes.

(Example 4-4) In Example 4-1, the friction roller 410 is close to the slope 10, and the vertical wire 211 is in contact with the first friction roller (Example 4-4) 413); and a second friction roller 414 formed on the first friction roller 413 and in contact with the horizontal wire 212 .

(Example 4-5) In Example 4-4, the rock fall prevention net fixture of the present invention includes: a joint pipe formed at the center of the plurality of friction rollers 410 and preventing contact with the anchor bolt 20; includes

(Example 4-6) In Example 4-4, the fall prevention net fixture of the present invention includes a first separation prevention cover 421 formed under the first friction roller 413, wherein the separation prevention cover 420 is formed under the first friction roller 413. ); and a second separation prevention cover 422 formed under the second friction roller 414 .

(Example 4-7) In Example 4-6, the rock fall prevention net fixture of the present invention is formed on the first separation prevention cover 421 and the second separation prevention cover 422, and a plurality of friction rollers ( 410) friction plates 423 respectively formed in the lower portion; and a separation prevention plate 424 formed by bending orthogonally to one end of the friction plate 423 .

(Example 4-8) In Example 4-5, the rock fall prevention net fixture of the present invention is formed of a module in which the friction roller 410, the separation prevention cover 420, and the joint pipe are coupled to each other; includes

The present invention relates to a friction member 400, and specifically, the friction member 400 is fastened to the anchor bolt 20 so that the anchor bolt 20 passes through, and the vertical wire 211 and the horizontal wire 212 are in contact with each other. It is possible to prevent the breakage of the wire rope 200 when a rockfall occurs. The friction member 400 is formed at a position where the vertical wire 211 and the horizontal wire 212 intersect, and when a load is applied to the rockfall prevention net 100 as a rockfall occurs, the wire rope 200 is prevented from breaking. rotate to prevent At this time, a friction roller 410 rotating by the wire rope 200 is formed, and a separation prevention cover 420 is formed on the friction roller 410 to prevent separation of the wire rope 200 . In detail, the vertical wire 211 and the horizontal wire 212 are partially accommodated in the receiving groove 411 formed on the outside of the friction roller 410, and when a tension force is generated in the wire as a rockfall occurs, Rather than fixing the wire, it rotates to flow with a predetermined length.

The friction roller 410 is formed with a joint pipe for preventing the anchor bolt 20 and the friction roller 410 from coming into contact when the anchor bolt 20 is inserted into the through hole 412 and rotates. It is formed to connect the first friction roller 413 and the second friction roller 414 . At this time, the joint pipe is formed to be in contact with the partition plate so that the first friction roller 413, the second friction roller 414, and the separation prevention cover 420 are assembled as a module so that the operator is separated from the friction roller 410 The time for assembling each of the preventive covers 420 can be reduced. This can reduce the time for the operator to insert the fixture 300 after inserting the anchor bolt 20 from the slope 10 and at the same time reduce the operator's work process.

The separation prevention cover 420 has a first separation prevention cover 421 and a second separation prevention cover 422 formed on the upper portions of the first friction roller 413 and the second friction roller 414, respectively, and each separation The prevention cover 420 includes a friction plate 423 formed under the friction roller 410 and a separation prevention plate 424 formed by bending orthogonally from one end of the friction plate 423 to the top. The friction plate 423 is formed to have a larger diameter than the friction roller 410 , and prevents the first wire 210 from being separated. And the separation prevention plate 424 is bent vertically from the friction plate 423, and the separation prevention plate 424 of the first separation prevention cover 421 and the separation prevention plate 424 of the second separation prevention cover 422 are As they are formed to face different positions, the vertical wire 211 and the horizontal wire 212 are prevented from being separated from each other. And the separation prevention plate 424 is formed with a first separation prevention plate 424 bent from the bottom toward the friction roller 410 in order to prevent the wire rope 200 from being separated to the top. In addition, the separation prevention plate 424 may be provided with a separate fixing device to be fixed to the friction plate 423 after the wire rope 200 is seated between the friction rollers 410 .

(Example 5-1) The present invention relates to a fixture for a fall prevention net, and in Example 3-1, in the buffer member 500, the anchor bolt 20 penetrates the center, and the rotating plate rotates in both directions ( 510); a shock absorber 600 coupled to one end of the rotating plate 510 and buffering the pressure of the wire rope 200; and an adjustment hinge 650 that connects the rotary plate 510 and the shock absorber 600 and adjusts the angle of the shock absorber 600 .

(Example 5-2) The rockfall prevention net fixture of the present invention in Example 5-1, wherein the buffer member 500 fixes the wire rope 200 corresponding to each other as a plurality of them are stacked on each other; include

(Example 5-3) The rock fall prevention net fixture of the present invention includes; in Example 5-2, the rotating plate 510 is formed in a curved surface so that the shock absorber 600 at positions corresponding to each other rotates; do.

(Example 5-4) In Example 5-2, the rockfall prevention net fixture of the present invention includes a rotary groove formed in the rotary plate 510 and through which the anchor bolt 20 passes.

(Example 5-5) In Example 5-4, the rock fall prevention net fixture of the present invention includes an extension groove extending to at least one surface of the rotating groove.

The present invention relates to a buffer member 500, specifically, the buffer member 500 is to fix the second wire 220 formed in an oblique line to correspond to each other, and to buffer the pressure of the second wire 220 . The buffer member 500 is formed with a rotating plate 510 through which the anchor bolt 20 penetrates in the center so that the position of the buffer member 500 is changed according to the pressure applied to the second wire 220 . At this time, the rotating plate 510 is formed to a predetermined thickness, and as a curved surface is formed at a position where the shock absorber 600 contacts, the shock absorber 500 can rotate at a predetermined angle by the pressure of the wire rope 200 . have. And the rotating plate 510 prevents the rotation of the rotating plate 510 when the protrusion plate is formed at a position in contact with the buffer member 500, and no pressure is generated. At this time, the rotating plate 510 is formed with a rotation groove through which the anchor bolt 20 passes, and the rotation groove has a soft magnetic groove protruding from the slope to secure a space apart from the anchor "L tt 20 and the rotation plate. This is to prevent frictional force from being applied in contact with the anchor bolt 20 when the rotating plate 510 is rotated.

And the shock absorber 600 is formed by being partitioned by the rotating plate 510 and the adjustment hinge 650 , and the angle of the shock absorber 600 is adjusted up and down by the adjustment hinge 650 . In addition, the adjustment hinge 650 is to adjust the angle of the shock absorber 600 for buffering the pressure when rockfall occurs, and since the height of the fixture 300 is formed differently depending on the shape of the slope 10, the shock absorber ( 600) angle is adjusted. Accordingly, when the second wire 220 and the shock absorber 600 are connected in a straight line, it is possible to buffer the shock acting on the second wire 220 by the shock when a rockfall occurs. And the shock absorber 600 and the second wire 220 are formed to be close to the slope 10 by the adjustment hinge 650 to prevent the rockfall prevention net 100 from being spaced apart from the slope 10 .

Therefore, the shock absorber 500 of the present invention has a feature of adjusting the shock absorber 600 and the rotating plate 510 at various angles so that the second wire 220 buffers the shock generated by the occurrence of rockfall.

(Example 6-1) The present invention relates to a fixture for a fall prevention net, and in Example 5-1, a fastening part 610 formed in the shock absorber 600 and to which the wire rope 200 is fastened; It is formed at the end of the fastening part 610, the elastic part 640 for accommodating the elastic body 641 therein; includes.

(Example 6-2) In Example 6-1, the rock fall prevention net fixture of the present invention includes: a fastening roller 620 formed in the fastening part 610 and in contact with the second wire 220; It is formed on the fastening roller (620), the extension body (630) connected to the elastic part (640); includes.

(Example 6-3) The fall prevention net fixture of the present invention according to Example 6-1, wherein the fastening roller 620 is formed to be detachable from the extension body 630 by a bolt and a nut; includes; .

(Example 6-4) In Example 6-2, the rock fall prevention net fixture of the present invention includes: a fastening shaft 631 formed on the extension 630, penetrating the elastic part 640 and accommodated therein; and a fastening plate 632 formed at an end of the fastening shaft 631 and to which the fastening roller 620 is fastened to the center.

(Example 6-5) In Example 6-4, the rockfall prevention net fixture of the present invention includes the fastening plate 632 rotating on the fastening shaft 631.

(Example 6-6) In Example 6-4, the rock fall prevention net fixture of the present invention is formed on the elastic part 640 and is elastic for accommodating the fastening shaft 631 to which the elastic body 641 is fastened. case 642; and an elastic plate (643) formed on the front surface of the elastic case (642) and preventing separation of the elastic body (641).

The present invention relates to a shock absorber 600 , and specifically, the shock absorber 600 is to reduce an impact acting on the second wire 220 , and has a restoring force due to elasticity. The shock absorber 600 is provided with a fastening part 610 to which the wire rope 200 is fastened, and the fastening part 610 includes a fastening roller 620 and a fastening roller 620 to which the second wire 220 is in contact. An extension body 630 for fixing is formed. And the shock absorber 600 has an elastic part 640 that applies elasticity to the fastening part 610 is formed, and the elastic part 640 includes an elastic case 642 and an elastic case ( An elastic plate 643 is formed on the front surface of the 642 to prevent separation of the elastic body 641 . The fastening roller 620 is in contact with the second wire 220, and when an impact is applied to the second wire 220 due to a rockfall or tensioning the second wire 220, the fastening roller by the second wire 220 620 rotates. And the fastening roller 620 is fixed by the extension body 630, and bolts and nuts are fastened to the extension body 630, so that the fastening roller 620 can be detached. This is for fastening the second wire 220 to the fastening part 610 , and after coupling the second wire 220 to the extension body 630 , the fastening roller 620 may be coupled.

And the extension body 630 is formed with fastening plates 632 formed above and below the fastening roller 620, and the plurality of fastening plates 632 are formed so that one end is connected to each other. In addition, the fastening plate is formed to have a narrower width toward the fastening roller 620 , which is to distribute the load applied by the second wire 220 toward the elastic part 640 . In addition, the fastening plate 632 is formed to be narrower in width toward the fastening roller 620, which is to disperse the load applied by the second wire 220 toward the elastic part 640. . In addition, in another embodiment, the extension body 630 is formed with a rotating body that rotates between the plurality of fastening plates 632 by elasticity. The rotating body rotates inside when the second wire 220 is inserted into the extension body 630 and returns to the original state after the second wire 220 is inserted so that the second wire 220 is separated from the extension body 630 . To prevent and at the same time to be fastened to the fastening roller (620). Accordingly, it is possible to increase the construction efficiency by simply coupling the second wire 220 to the extension body 630 .

And the fastening plate 632 has a fastening shaft 631 extending in the direction of the elastic part 640 is formed, and the fastening shaft 631 is accommodated in the elastic part 640 to apply pressure to the second wire 220 . When applied, the reciprocating motion of moving forward and backward is performed in the elastic part 640 . And the fastening plate 632 rotates on the fastening shaft 631 by rotating the fastening roller 620 according to the angle at which the wire rope 200 is fastened to the fastening roller 620, and the wire rope 200 and the fixture 300 ), it is possible to reduce the stress load acting on the wire rope 200 and at the same time prevent the twisting phenomenon of the wire rope (200). At this time, a moving plate is formed at the end of the fastening shaft 631 formed inside the elastic part 640 , and the elastic body 641 formed between the moving plate and the elastic part 640 is formed as a helical torsion spring to form a fastening part. Elasticity can be applied to 610 .

And the elastic part 640 is formed with an elastic case 642 for accommodating the elastic body 641 and the fastening shaft 631, and the elastic case 642 is formed in a cross section of various shapes, such as a square or a circle. This prevents foreign substances such as falling rocks and tree branches formed therein from flowing into the elastic body 641 to reduce the buffering effect. In general, the rockfall prevention net 100 and the fixture 300 are exposed to the outside, so that foreign substances are introduced into the elastic body 641, and when a rockfall occurs, there is a problem in that the wire rope 200 cannot be buffered. However, the elastic case 640 of the present invention is formed to surround the elastic body 641 to prevent foreign substances from flowing into the elastic body 641 .

In addition, an elastic plate 643 is formed on the front surface of the elastic case 642 to form an elastic hole through which the fastening shaft 631 passes. As such, when impact and pressure are applied to the second wire 220 , the fastening part 610 moves to the outside of the elastic part 640 , and the fastening part 610 is again connected to the elastic part 640 by the elastic body 641 . As it returns to , the elastic force is applied. In this way, the fixture 300 is formed with an elastic part 640 in order to relieve the pressure and shock acting on the wire rope 200, and X along the wire rope 200 to reduce the stress load of the wire rope 200. It is possible to rotate the position of the fastening roller 620 to which the wire rope 200 is fastened while rotating along the axis, the Y axis, and the Z axis.

Therefore, the shock absorber 600 reduces the pressure and impact acting on the wire rope 200, and has a variable characteristic according to the position of the wire rope 200 in order to improve the durability of the wire rope 200.

(Example 7-1) The present invention relates to a method for constructing a rock fall prevention net using a fall prevention net fixture, and in Example 1-1, a hesitation step of installing the rockfall prevention net 100 on the slope 10 (S1100) ); After the hesitation step (S1100), a wire installation step (S1200) of installing a plurality of wire ropes 200 on the outside of the rockfall prevention net 100; After the wire installation step (S1200), a bolt installation step (S1300) of installing an anchor bolt 20 for drilling the slope 10; After the bolt installation step (S1300), the assembly step of assembling the fixture 300 to the anchor bolt 20 (S1400); After the assembling step (S1400), the fastening step of fastening the wire rope 200 to the fixture 300 (S1500); After the fastening step (S1500), a tension step (S1600) of tensioning the wire rope 200; includes.

The present invention relates to a method of constructing a rockfall prevention net using a rockfall prevention net fixture, and specifically, in order to prevent rockfall on the slope 10 from occurring, the slope 10 is arranged and then the rockfall prevention net 100 is installed. At this time, the rockfall prevention net 100 is formed by receiving an iron material therein, and is installed after removing the logging and floating stones of the slope 10 . And after the wedge to which the wire rope 200 is fixed to the end of the rockfall prevention net 100 is coupled at equal intervals, the wire rope 200 is installed on the wedge. In the wire rope 200, a plurality of vertical wires 211 are installed on one wedge and the horizontal wire 212 is installed on one wedge. Both ends of the vertical wire 211 and the horizontal wire 212 are installed on the wedge to connect both sides of the rockfall prevention net 100 . And when the wire rope 200 is installed, a position where the wire rope 200 is in contact with each other and a position where the second wire 220 formed in an oblique line is installed is drilled.

The drilling device for drilling the slope 10 may be formed with various equipment, and the anchor bolt 20 is installed by drilling to a predetermined depth. At this time, the anchor bolt 20 may be fixed by a filler inserted into the perforation hole 11 , and the fastener 300 is assembled on the outside of the anchor bolt 20 . And the order of installing the wire rope 200 and drilling the slope 10 can be changed and is adjusted according to the terrain. The fixture 300 installs the friction member 400 and the buffer member 500, respectively, or the friction member 400 and the buffer member 500 depending on the position where the first wire 210 and the second wire 220 contact each other. can be installed at the same time. As such, when the fixture 300 is installed on the anchor bolt 20, the wire rope 200 can be fastened, and the fastened wire rope 200 can be tensioned by a tension device. At this time, the type of the tension device is not limited, and a tensile force is generated in the shock absorber 600 of the fixture 300 by the tensioned wire rope 200 .

(Example 8-1) The present invention relates to a method of constructing a rock fall prevention net using a fall prevention net fixture, and in Example 7-1, before the bolt installation step (S1300), a drilling step of drilling the slope 10 (S1210); After the drilling step (S1210), a grouting step (S1220) of performing grouting on the drilling hole 11; includes.

(Example 9-1) The present invention relates to a method for constructing a rock fall prevention net using a fall prevention net fixture, and in Example 7-1, during the assembling step (S1400), the wire rope is attached to the anchor bolt 20 A first assembling step (S1410) of assembling the friction member 400 for reducing the frictional force of (200); After the first assembling step (S1410), a second assembling step (S1420) of assembling the buffer member 500 for buffering the pressure of the wire rope 200 is included.

10: slope 11: perforated hole
20: anchor bolt 100: fall prevention net
200: wire rope 210: first wire
211: vertical wire 212: horizontal wire
220: second wire 300: fixture
400: friction member 410: friction roller
411: receiving groove 412: through hole
413: first friction roller 414: second friction roller
420: separation prevention cover 421: first separation prevention cover
422: second separation prevention cover 423: friction plate
424: escape prevention plate 500: buffer member
510: rotary plate 600: shock absorber
610: fastening part 620: fastening roller
630: extension body 631: fastening shaft
632: fastening plate 640: elastic part
641: elastic body 642: elastic case
643: elastic plate 650: adjustable hinge
S1100: hesitation step S1200: wire installation step
S1210: drilling step S1220: grouting step
S1300: bolt installation step S1400: assembly step
S1410: first assembling step S1420: second assembling step
S1500: fastening step S1600: tension step

Claims (9)

a rockfall prevention net 100 installed on the outside of the slope 10 to prevent falling rock;
a wire rope 200 to prevent fixing and separation of the rockfall prevention net 100;
A plurality of the wire rope 200 is formed in a contact position, the fixture 300 is fixed to the inclined surface (10);
An anchor bolt 20 passing through the fixture 300 and inserted into the slope 10;
The wire rope 200 includes a first wire 210 formed to cross the outside of the rockfall prevention net 100;
a second wire 220 connecting a plurality of the rockfall prevention nets 100 in an oblique line and applying pressure to the fixture 300;
The fixture 300 is in contact with each of the plurality of the first wire 210, the friction member 400 for reducing the frictional force of the first wire 210;
a buffer member 500 formed on the friction member 400 and buffering the pressure of the second wire 220;
The buffer member 500 includes a rotating plate 510 through which the anchor bolt 20 passes through the center and rotates in both directions;
a shock absorber 600 coupled to one end of the rotating plate 510 and buffering the pressure of the wire rope 200;
A fall prevention net fixture including a; connecting the rotary plate 510 and the shock absorber 600, and an adjustment hinge 650 for adjusting the angle of the shock absorber 600.
delete delete The method according to claim 1,
The friction member 400 includes a friction roller 410 through which the anchor bolt 20 passes, and a portion of the wire rope 200;
A fall prevention net fixture including; a separation prevention cover 420 formed to be spaced apart from the friction roller 410 and preventing separation of the wire rope 200.
delete The method according to claim 1,
a fastening part 610 formed in the shock absorber 600 and to which the wire rope 200 is fastened;
A fall prevention net fixture including a; formed at the end of the fastening part 610, the elastic part 640 for accommodating the elastic body 641 therein.
In the method of constructing a fall prevention net using a fall prevention net fixture,
The hesitation step of installing the rockfall prevention net 100 on the slope 10 (S1100);
After the hesitation step (S1100), a wire installation step of installing a plurality of wire ropes 200 formed of a first wire 210 and a second wire 220 on the outside of the rockfall prevention net 100 (S1200) ;
After the wire installation step (S1200), a bolt installation step (S1300) of installing an anchor bolt 20 for drilling the slope 10;
After the bolt installation step (S1300), the assembly step of assembling the fixture 300 of claim 1 to the anchor bolt 20 (S1400);
After the assembling step (S1400), the fastening step of fastening the wire rope 200 to the fixture 300 (S1500);
After the fastening step (S1500), the tension step of tensioning the wire rope 200 (S1600);
A first assembly step (S1410) of assembling a friction member 400 for reducing the friction force of the first wire 210 to the anchor bolt 20 during the assembly step (S1400);
After the first assembling step (S1410), a second assembling step (S1420) of assembling the buffer member 500 for buffering the pressure of the second wire 220;
The buffer member 500 has the anchor bolt 20 penetrated through the center, is coupled to one end of the rotating plate 510 and the rotating plate 510 rotating in both directions, and buffers the pressure of the wire rope 200 . A shock absorber 600, which connects the rotating plate 510 and the shock absorber 600, and an adjustment hinge 650 for adjusting the angle of the shock absorber 600 is formed; A method of constructing a rockfall prevention net using
8. The method of claim 7,
Before the bolt installation step (S1300), a drilling step (S1210) of drilling the slope (10);
After the drilling step (S1210), a grouting step (S1220) of performing grouting in the drilling hole 11; a rockfall prevention net construction method using a rockfall prevention net fixture comprising a.
delete

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