KR101291758B1 - Slope face stabilizing method using compression type buckles - Google Patents

Abstract

PURPOSE: A slope stabilizing method using compression type buckles is provided to tightly tense a wire rope by providing an elastic restoring force generated by compressing a spring into a resistance force with respect to tension. CONSTITUTION: A slope stabilizing method using compression type buckles comprises the following steps: forming a plurality of boreholes from a slope to the rock ground in a lower part; inserting and fixing a reinforcement member into each borehole by protruding the rear head part thereof to the outside and applying a rock fall prevention net on the slope; fitting a wire rope fixture to the rear head part of the reinforcement member; laterally and longitudinally arranging a wire rope on the rock fall prevention net to install into a lattice or diamond shape; and installing the wire rope to maintain the compressed state of a spring by applying a tensile force to the movable loop part (120) of a compression type buckle (100) connected to the wire rope.

Description

Slope face stabilizing method using compression type buckles}

The present invention relates to a compression buckle and a slope ground stabilization method using the same. Specifically, the present invention provides a compression buckle that serves to tension the wire rope used in the rockfall prevention net installed for stabilizing ground slope by providing a restoring force by elasticity generated by spring compression and elasticity. And it relates to a slope ground stabilization method using the same.

Human soil damage occurs when soils or rocks in slopes such as natural slopes and flattening of mountainous terrain are dropped artificially. In order to prevent the occurrence of such human physical damage, the rockfall slope or the cut slope is constructed of a rockfall rock prevention net for stabilizing the slope ground.

Rockfall protection nets constructed for stabilization of sloped ground are generally divided into pocket type and non-pocket type. The pocket type rockfall prevention net keeps the slope and the rockfall prevention net at regular intervals so that the rockfall absorption net absorbs the rock energy first and guides the rockfall to the bottom of the slope. The wire rope is installed cross-crossing, the wire rope is installed at the point where the wire rope is crossed at the same time and is secured to the top fastener is installed on the top and the wire rope fixture is installed on the bottom. On the other hand, the non-pocket type rock fall prevention net is designed to restrain the falling rock through the friction between the rock fall prevention net and the slope and the rock fall prevention net is configured in such a way that the wire rope fixture is provided at each intersection of the wire rope.

Typically, a turnbuckle is used for tensioning the wire rope of the rockfall prevention network, and it is not easy to control the tension force, and the wire rope is often broken due to excessive tension. In order to solve such a problem, the prior art, which implements the tension of the wire rope of the rockfall prevention net using a compression spring rather than a turnbuckle, has been disclosed in Korean Patent No. 1145502. However, when the compression spring is stretched over a certain range, the elasticity is lost, and as a result, the wire rope also cannot maintain a taut state, and thus there is a problem in that the slope ground stabilization effect by the rockfall prevention net is reduced.

The present invention as a device to the tension of the wire rope used in the rockfall protection net constructed for the slope ground stabilization as compared to the existing turnbuckle or compression spring to facilitate the adjustment of the tensile force and to provide a compression type buckle excellent in durability. have.

Another object of the present invention is to provide an inclined ground stabilization method which effectively prevents falling rocks by applying a proper pressing force to the inclined ground as a method using the compression buckle.

In order to solve the above problems, the present invention provides a “hole through one end, the hollow body communicating with the through hole formed in the center; A rod, a ring provided at one end of the rod and a stopper provided at the other end of the rod, the rod being inserted into the hollow part through a through hole of the body, wherein the ring is exposed to the outside, and the stopper is exposed. The moving ring portion is configured so as not to leave the hollow portion of the body portion; A spring that is fitted to the rod of the movable ring part and is compressed between the stopper of the movable ring part and the through hole of the body part when the movable ring part is tensioned to provide tensile resistance by elasticity; And a fixing ring provided at the other end of the body portion.

In addition, the present invention is "compression buckle, reinforcement which is a length member consisting of the buried portion and the back head, a wire rope end is connected to the compression buckle, configured to fix at least one wire rope in the state fitted to the back head of the reinforcement A method of stabilizing inclined ground using a wire rope fixture and a rockfall prevention network, the method comprising: (a) forming a plurality of holes at required intervals from the inclined ground to the lower rock ground; (b) inserting the reinforcing material into each of the perforation holes and fixing the laryngeal part to protrude outwardly; (c) laying the rockfall prevention net on the inclined ground; (d) fitting the wire rope fixture to the back head of the stiffener; And (e) placing the wire rope vertically and horizontally on the rockfall prevention net to be installed in a lattice or rhombus shape, so that at least one wire rope is fixed to the wire rope fixture, and the wire rope is connected to the compression type. And tensioning the wire rope so that a tension is applied to the moving ring portion of the buckle to maintain the compressed state of the spring.

At this time, the back of the head is formed of a bolt,

The wire rope fixture,

The upper and lower fastening plate formed of a flat plate, wherein the rear head portion of the reinforcement is inserted in the lower direction of the lower fastening plate is formed in the center of the upper and lower fastening plate to be fastened by a nut from the upper fastening plate, the Coupling holes formed on the left and right sides of the upper and lower fastening plates, bolting the upper and lower fastening plate while the wire rope is inserted into the space between the upper and lower fastening plate to the left and right sides of the rear head of the reinforcement. Type A consisting of a fastening bolt for preventing the separation of the wire rope, a tubular member and a guide roller for guiding the wire rope inserted into the fastening bolt in a rotatable state in the space between the upper and lower fastening plate,

Fixing plate formed of a flat plate, the rear head portion of the reinforcing material is inserted in the downward direction through the hole formed in the center portion of the fixing plate to be fastened by a nut from the upper side, the shackle coupling hole formed side by side in front of the through hole of the fixing plate, coupled to the shackle coupling hole Shackle, the U bolt coupling hole formed in the front and rear side by side in the left and right sides of the through hole of the fixing plate and the U bolt is inserted in the downward direction of the U bolt coupling hole and fastened by a nut (N) Configured B type,

Shackle coupling formed on the left side or right side of the fixing plate formed of a flat plate, the rear head portion of the reinforcing material is inserted in the downward direction and formed in the center portion of the fixing plate so that it is fastened by a nut from the upper side; It is divided into C type including a shackle coupled to the ball and the shackle coupling hole,

In step (d), the wire rope fastener is fitted to the rear head of the reinforcement, and the C-type wire rope fastener is coupled to the rear head of the reinforcement fixed to the perforated hole formed at the corner, and the hole is formed at the corner. A type B wire rope fixture is coupled to the back head of the reinforcement, and a type A wire rope fixture is coupled to the back head of the reinforcement fixed to the other hole.

In the step (e), the wire rope is tensioned to the moving ring of the compression buckle on the rockfall prevention net so that the spring is tensioned so as to maintain the compressed state, but the wire rope fixture of the C type is installed. The wire rope fixed by the wire rope fasteners of the type B to form a lattice, the wire rope fixed by the wire rope fasteners of the B type and the wire rope fixed by the wire rope fasteners of the A type to form a rhombus in the grid It may be characterized in that the step.

According to the compression buckle according to the present invention the spring is compressed and the resistance caused by the elastic force acts as a force to tension the wire rope used in the rock fall prevention net installed for the slope ground stabilization, as a result of the wire rope The tension of appropriate size is provided stably.

In addition, according to the slope ground stabilization method according to the present invention it is possible to effectively provide damage to the rockfall prevention net and the slope ground due to the falling rock.

1 is a view showing an embodiment of a compression buckle according to the present invention.
2 is a flow chart of the slope ground stabilization method according to the present invention.
3 is a view showing a fixing example of the reinforcing material used in the slope ground stabilization method according to the present invention.
4 to 6 are views showing one embodiment of the wire rope fixture used in the slope ground stabilization method according to the present invention.
7 is a view showing an embodiment of the construction of the slope ground stabilization method according to the present invention.

Hereinafter, a compression buckle according to the present invention and a slope ground stabilization method using the same will be described with reference to the accompanying drawings.

1. Compression Buckle (100)

1 shows an embodiment of a compression buckle 100 according to the present invention.

The compression buckle 100 is configured to include a body portion 110, a moving ring portion 120, a spring 130 and a fixing ring 140.

The body portion 110 is a member in which a through hole 111 is formed at one end, and a hollow portion 112 communicating with the through hole 111 is formed at the center thereof.

The moving ring part 120 includes a rod (Rod) 121, a ring 122 provided at one end of the rod 121, and a stopper 123 provided with the other end of the rod 121. Inserted into the hollow portion 112 through the through-hole 111 of the body portion 110, the ring 122 is exposed to the outside, the stopper 123 is the hollow portion 112 of the body portion 110 It is configured not to leave). Specifically, the stopper 123 may be provided in various forms. In one embodiment, an end portion of the rod 121 having the stopper 123 is formed of a bolt, and the stopper 123 It can be assumed that the flange is formed in the form consisting of a nut cap formed outward.

The spring 130 is fitted to the rod 121 of the mobile ring 120 so that the stopper 123 and the body of the mobile ring 120 when the mobile ring 120 is tensioned Compressed between the through-holes 111 of 110 is a member that provides a tensile resistance by elasticity. (A) of FIG. 1 is a state before compression of the spring 130 of the compression buckle 100, (b) of Figure 1 (b) is compression of the spring 130 of the compression buckle 100 It looks like.

The fixing ring 140 is provided on the other end of the body portion 110, unlike the mobile ring portion 120 is provided in a fixed state to the body portion 110.

The wire ring used in the rock fall prevention network for inclined ground stabilization to the ring 122 or the fixing ring 140 of the movable ring part 120 of the compression buckle 100 and the movable ring part 120 When tensioning, appropriate tension is applied stably to the wire rope. This is because the spring 130 is not in a tensioned manner, so the spring 130 is less likely to be deformed to lose elasticity. In addition, since the spring 130 is compressed and the restoring force generated by the elastic force acts as a force for tensioning the wire rope, the force acting according to the specification of the spring 130 can be adjusted.

2. Slope ground stabilization method using a compression buckle (100)

2 is a flow chart of the slope ground stabilization method according to the present invention.

The method of Figure 2 is the compression buckle 100, the reinforcement 200 consisting of the buried portion 210 and the back head 220, the wire rope 300 is connected to the compression buckle 100, the end, As a method of stabilizing inclined ground using a wire rope fixture 400 and a rockfall prevention net 500 configured to fix at least one wire rope 300 in a fitted state to the back head 220 of the reinforcement 200, ( a) forming a plurality of perforation holes 2 at a predetermined interval from the inclined ground 1 to the lower rock ground; and (b) inserting the reinforcement 200 into each of the perforated holes 2 to form the back head 220. A) protruding to the outside, (c) laying the rockfall prevention net 500 on the inclined ground (1), (d) the wire rope fixture 400 to the back of the reinforcement 200 Fitting to the 220 and (e) vertically fold the wire rope 300 on the rockfall protection net 500. Installed in a lattice or rhombus shape, so that at least one wire rope 300 is fixed to the wire rope fixture 400, and the compression buckle 100 is connected to which the wire rope 300 is connected. A tension force is applied to the ring part 120 to tension the wire rope 300 so that the spring 130 is maintained in a compressed state.

(1) step (a)

This step is a step of forming a plurality of perforation holes (2) at the necessary intervals from the inclined ground (1) to the lower rock ground (see (a) of Figure 3).

The drilling hole 2 is preferably drilled to be perpendicular to the excavation surface of the rock slope (1). Drilling work should be carried out paying attention to the gap, diameter, position, direction, and depth of the drilling hole (2). In addition, it is preferable to clean the inside of the drilling hole after the drilling operation is made.

(2) step (b)

In this step, the reinforcement 200 is inserted into each of the perforation holes 2 to fix the laryngeal part 220 to protrude outwardly (see (b) of FIG. 3).

The reinforcement 200 is composed of a buried portion 210 and the back head 220, it may be implemented by a rock bolt, a nail, etc., as a lock bolt, a deformed reinforcing bar, screw reinforcing rod, screw steel bar, etc. are used Can be. In addition, the back head 220 of the reinforcing member 200 may be formed with a screw thread by computer processing.

The reinforcement 200 is inserted into each of the perforation holes 2, and the fixation material is injected into the perforation hole 2 and fixed while the rear head part 220 protrudes out of the inclined ground 1.

(3) step (c)

This step is to lay the rockfall prevention net 500 on the inclined ground (1).

The rockfall prevention network 500 is a portion that performs the role of preventing the falling of the earth and sand, rock, etc. of the inclined ground (1) falling to the lower portion is usually made of a ridge net. Spread the rockfall prevention net 500 on the inclined ground (1) to lay the reinforcement 200 is exposed to the fall prevention net 500.

(4) step (d)

This step is a step of fitting the wire rope fixture 400 to the back head 220 of the reinforcement (200). The wire rope fixture 400 serves to fix one or more wire rope 300 in a state of being fitted to the back of the head 220 of the reinforcement (200).

4 to 6 show one embodiment of the wire rope fixture 400 used in the slope ground stabilization method according to the present invention. In general, since the drilling holes 2 are formed in a lattice form in the inclined ground 1, there are drilling holes 2 forming corners, drilling holes 2 forming sides and drilling holes 2 formed inside the lattice. Done. Therefore, since the efficient fixing form of the wire rope 300 varies according to the formation position of the drilling hole 2, the wire rope fastener 400 coupled to the back head 220 of the stiffener 200 is provided in various forms. It is preferable.

First, the wire rope fastener 400 shown in FIG. 4 is formed of upper and lower fastening plates 410a and 410b formed of a flat plate, and the rear head 220 of the reinforcement 200 is the lower fastening plate 410b. Through holes 411a and 411b formed in the center of the upper and lower fastening plates 410a and 410b so as to be inserted in a lower direction and fastened by nuts N from the upper fastening plate 410a, and the upper and lower fastening plates. To the left and right sides of the rear head 220 of the reinforcing member 200 in the space between the coupling holes 412a, 412b formed on the left and right sides of the through holes 411a, 411b of the 410a, 410b, and the upper and lower fastening plates 410a, 410b. The upper and lower fastening plates 410a and 410b are bolted and coupled to the wire rope 300 in a state where the wire rope 300 is inserted, and a fastening bolt 413 that prevents detachment of the inserted wire rope 300 and the upper part as a tubular member. In the space between the lower fastening plate (410a, 410b) is fitted into the fastening bolt 413 in a rotatable state to pull in It is configured to include a guide roller 414 that guides the wire rope (300) (A-type).

In addition, the eye rope fastener 400 shown in FIG. 5 is a fixing plate 420 formed of a flat plate, the rear head 220 of the reinforcement 200 is inserted in the downward direction to be fastened by a nut (N) from the upper side The through hole 421 formed in the central portion of the fixing plate 420, the shackle coupling hole 422 formed side by side in the front left and right sides of the through hole 421 of the fixing plate 420, the shackle 423 coupled to the shackle coupling hole 422 The U-bolt coupling hole 424 and the U-bolt coupling hole 424 formed in the front-rear direction side by side at the rear left and right sides of the fixing plate 420 are inserted by the nut (N). It is configured to include a fastening (U) bolt 425 (B type).

Meanwhile, the wire rope fastener 400 shown in FIG. 6 is a fixing plate 430 formed of a flat plate, and the back head 220 of the stiffener 200 is inserted in a downward direction and fastened by a nut N from the upper side. A through hole 431 formed in the center portion of the fixing plate 430, the shackle coupling hole 432 formed on the left and right sides of the through hole 431 front left and right of the fixing plate 430 and the rear left or right of the fixing plate 430 and The shackle 433 coupled to the shackle coupling hole 432 is configured to include (C type).

When the wire rope fixture 400 is divided into A type, B type and C type as described above, the step (d) of the wire rope fixture 400 to the back of the head 220 of the reinforcing material 200 Reinforcement fixed to the drilling hole (2) formed on the side coupled to the coupling, but the rear head portion 220 of the reinforcing member 200 fixed to the drilling hole (2) formed in the corner, C-type wire rope fixture 400 A type 200 wire rope fixture 400 is coupled to the back head 220 of the head 200 and the back head 220 of the reinforcement 200 fixed to the other drilling hole 2 is coupled to the back head 220. It is preferable that it is made in such a manner that ().

5. (e) step

In this step, the wire rope 300 is disposed vertically and horizontally on the rockfall prevention net 500 to be installed in a lattice or rhombus shape, so that at least one wire rope 300 is fixed to the wire rope fixture 400. A tension is applied to the moving ring part 120 of the compressive buckle 100 to which the wire rope 300 is connected to make the wire rope 300 taut to maintain the compressed state of the spring 130. It's a step of tension.

7 shows an embodiment of the construction by the slope ground stabilization method according to the present invention.

In the construction embodiment of FIG. 7, the back head 220 of the reinforcement 200 is formed of a bolt, and a plurality of perforation holes 2 are formed in a grid on the inclined ground 1, and the wire rope fixtures ( 400 is a type A, B type and C type is connected to the rear head 220 of the reinforcement 200 fixed to the drilling hole (2) formed in the corner C-type wire rope fixture 400 is coupled to the side The B-type wire rope fastener 400 is coupled to the rear head 220 of the reinforcement 200 fixed to the formed drilling hole 2, and the rear head 220 of the reinforcement 200 fixed to the other drilling hole 2. ) Is based on the premise when the A-type wire rope fixture 400 is coupled.

Looking specifically, the wire rope 300 is applied to the moving ring portion 120 of the compression buckle 100 on the rockfall prevention net 500 is tensioned so as to maintain the spring 130 is in a compressed state The wire rope fixture 400 is fixed by the wire rope fixture 400 of the C type and the wire rope fixture 400 of the B type to form a lattice shape, and the wire rope fixture 400 of the B type. ) And the wire rope 300 fixed by the wire rope fixture 400 of the A type may be installed to form a rhombus shape in the lattice.

The compression buckle 100 provides a suitable tension force stably unlike conventional turnbuckles or tension springs, so the wire rope 300 shown in the construction example of FIG. It is applied stably to the inclined ground (1).

It has been described in detail above with reference to the accompanying drawings about the compression buckle 100 and the slope ground stabilization method using the same according to the present invention. However, the present invention is not limited to the embodiments described with reference to the accompanying drawings, and various modifications and variations are possible without departing from the scope of the present invention. It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

1: slope ground 2: drilling hole
100: compression buckle 110: body
111: through-hole 112: hollow part
120: moving ring 121: rod
122: ring 123: stopper
130: spring 140: fixing ring
200: reinforcing material 210: buried part
220: larynx head 300: wire rope
400: wire rope fasteners 410a, 410b: upper and lower fastening plate
411a, 411b, 421, 431: through hole 412a, 412b: joining hole
413: fastening bolt 414: guide roller
420, 430: fixed plate 422, 432: shackle coupling hole
423, 433: Shackle 424: U bolt coupling hole
425: U bolt 500: rockfall protection net

Claims (3)

delete delete Compression buckle 100; Reinforcing member 200 is a length member consisting of a buried portion 210 and the bolted back head 220; A wire rope 300 whose end is connected to the compression buckle 100; A wire rope fixture 400 configured to fix at least one wire rope 300 in a fitted state to the back head 220 of the reinforcement 200; And rockfall prevention network 500; As a method of stabilizing the sloped ground using,
The compression buckle 100, the one end is formed with a through hole 111, the hollow portion 112 in communication with the through hole 111, the body portion 110 is formed in the center; A rod (Rod) 121, a ring 122 provided at one end of the rod 121, and a stopper 123 provided at the other end of the rod 121, and having a through hole of the body portion 110 ( Inserted into the hollow portion 112 through the 111, but the ring 122 is exposed to the outside, the stopper 123 is configured to not leave the hollow portion 112 of the body portion 110 Unit 120; The through-hole 111 of the stopper 123 and the body portion 110 of the mobile ring 120 when the mobile ring 120 is tensioned by being fitted to the rod 121 of the mobile ring 120 Spring 130, which is compressed between and provides tensile resistance by elasticity; And a fixing ring 140 provided at the other end of the body part 110.
The wire rope fastener 400 is composed of upper and lower fastening plates 410a and 410b formed of a flat plate, and the back head 220 of the stiffener 200 is inserted downward from the lower fastening plate 410b. The through holes 411a and 411b formed in the center of the upper and lower fastening plates 410a and 410b so as to be fastened by the nut N from the upper fastening plate 410a and the upper and lower fastening plates 410a and 410b. The wire rope 300 to the left and right sides of the back head 220 of the stiffener 200 in a space between the coupling holes 412a and 412b formed at the left and right sides of the through holes 411a and 411b and the upper and lower fastening plates 410a and 410b. Fastening bolts 413 for bolting the upper and lower fastening plates 410a and 410b in a retracted state and preventing separation of the drawn wire rope 300, and the upper and lower fastening plates 410a as tubular members. Wire rope (3) is inserted and rotatably coupled to the fastening bolt 413 in the space between the, 410b A type A including a guide roller 414 for guiding 00); The fixing plate 420 formed of a flat plate, the rear head portion 220 of the reinforcing member 200 is inserted in the downward direction through the hole 421 formed in the central portion of the fixing plate 420 to be fastened by a nut (N) from the upper side, Shackle coupling hole 422 formed side by side in the front left and right sides of the fixing plate 420, the shackle 423 coupled to the shackle coupling hole 422, side by side in the rear left and right sides of the through hole 421 of the fixing plate 420 B comprising an oil (U) bolt coupling hole 424 formed in the front and rear direction and an oil (U) bolt 425 inserted in the downward direction of the u bolt coupling hole 424 and fastened by a nut (N). type; The fixing plate 430 formed of a flat plate, the rear head portion 220 of the reinforcement 200 is inserted in the downward direction through the hole 431 formed in the central portion of the fixing plate 430 to be fastened by a nut (N) from the upper side, Shackle coupling hole 432 formed in the front left and right sides of the fixing plate 430 and the rear left or right of the through hole 431 of the fixing plate 430 and the shackle 433 coupled to the shackle coupling hole 432. C type comprising; Separated by
(a) forming a plurality of perforation holes 2 at necessary intervals from the inclined ground 1 to the lower rock ground;
(b) inserting the reinforcement 200 into each of the perforation holes and fixing the laryngeal part 220 to protrude outwardly;
(c) laying the rockfall prevention net 500 on the inclined ground (1);
(d) fitting the wire rope fixture 400 to the back head 220 of the stiffener 200; And
(e) placing the wire rope 300 vertically and horizontally on the rockfall prevention net 500 to be installed in a lattice or rhombus shape, so that at least one wire rope 300 is fixed to the wire rope fixture 400. A tension is applied to the moving ring part 120 of the compressive buckle 100 to which the wire rope 300 is connected to make the wire rope 300 taut to maintain the compressed state of the spring 130. Steps to install the tension;
In the step (d), the wire rope fastener 400 is fitted to the rear head 220 of the reinforcement 200, but the rear head 220 of the reinforcement 200 fixed to the perforation hole 2 formed at the corner. The C-type wire rope fastener 400 is coupled, and the B-type wire rope fastener 400 is coupled to the rear head 220 of the reinforcement 200 fixed to the drilling hole 2 formed at the side, and other perforations. The rear head portion 220 of the reinforcement 200 fixed to the hole 2 is carried out by the process of coupling the wire rope fixture 400 of the A type,
In the step (e), the wire rope 300 is applied to the moving ring portion 120 of the compression buckle 100 on the rockfall prevention net 500 so that the spring 130 is maintained in a compressed state. Tension is installed in tension, the wire rope fixture 400 of the C type and the wire rope fixed by the wire rope fixture 400 of the B to form a lattice form, the wire rope of the B type Slope ground stabilization using a compression buckle, characterized in that the wire rope 400 fixed by the fastener 400 and the wire rope fastener 400 of the A type is installed to form a rhombus shape in the lattice Method.

Images