KR101299432B1 - Sting style anchor with sawtooth shaped wedge and construction method for the same - Google Patents

Abstract

PURPOSE: A sting type anchor including a saw-toothed wedge and a construction method thereof are provided to be stably installed because a saw-toothed wedge capable of being used by being manufactured in divided pieces penetrates into a boring hole. CONSTITUTION: A sting type anchor (1) including a saw-toothed wedge comprises a wedge body (10), an insertion cone (20), a tensile bar (40), a support fixing body (60), and a connection steel wire. A plurality of the saw-toothed wedge penetrating on a wall of a boring hole for reinforcing a slope is formed on the outer circumference of the wedge body. The insertion cone comprises a cone body and a cone head unit and includes a cone screw unit. The tensile bar is connected to the cone head unit by forming a screw thread connected to a tensile connection screw unit of the cone head unit.

Description

STING Anchor with Serrated Wedge and Construction Method {STING STYLE ANCHOR WITH SAWTOOTH SHAPED WEDGE AND CONSTRUCTION METHOD FOR THE SAME}

The present invention relates to an anchor for slope reinforcement, and more particularly, having a sawtooth wedge on the outer circumferential surface thereof, when the anchor is fixed to the slope, it can be installed in the drilled hole and installed firmly, and the assembly is simple and anchored. The present invention relates to an easy slope reinforcing dusting anchor and a construction method thereof.

Recently, the reinforcement of cut surface due to the natural slope or the collapse of artificial slope is frequently made after natural disaster, and it is necessary to improve the reinforcement method of such slope.

In particular, the slope collapse that occurs intensively during the summer not only acts as a threat to the lives and property of the residents, but also acts as a psychological instability due to the risk of weakened collapse of the slope, and the reinforcing construction cost is increasing. As a result, improvement measures have emerged as an urgent countermeasure.

In particular, when the earthquake, cut slope, tunnel entrance and exit sections collapse, most people suffer from casualties, and they often interfere with living conditions, such as causing frequent obstacles to vehicle traffic. There is an urgent need for alternatives.

As a technique for preventing such collapse of the slope, Korean Patent Nos. 992999 and 1047085 propose a method of installing an activity reinforcing anchor body of a slope as shown in FIGS. 1 and 2. The conventional slope reinforcing anchor body shown in FIG. 1 has a disadvantage in that a perforated hole is formed, and when the anchor body is fixed in the perforated hole, its assembly configuration is complicated and construction cost is high.

In particular, most anchor assemblies that are secured by securing a long free length have increased cost due to increased cost. In recent years, there is a tendency to apply an anchor body for the purpose of simplifying the structure.

In addition to the anchor body shown in Figs. 1 and 2, soil nailing fixed to grouting holes and rock bolts fixed with resins are also widely used, and construction costs caused by using expensive resin products to be fixed in drilling holes are also widely used. The wasteful factor of is being pointed out.

The present invention is to solve the problems of the prior art as described above is an object of the present invention to form a drill hole by using the reinforcement for the slope reinforcement to prevent the collapse of the slope in the drill hole when fixing the anchor body in the drill hole Not only can be installed firmly, but also to provide a simple method of assembling the anchor body and the anchor installation using the anchor installation method.

In addition, another object of the present invention is to use a variety of materials, such as stainless steel and high-strength aluminum, casting products, in response to the existing anchor assembly formed inside the drilling hole using only stainless products and various material configurations and complex assembly process, Sting-type anchor and serrated wedge-shaped wedges that ensure the ease of construction and ensure the stability of slopes by providing serrated wedge bodies that can be manufactured and used as a fixed piece. To provide a way.

In order to achieve the above object, the Sting-type anchor provided with a sawtooth wedge according to the present invention is a wedge body formed with a plurality of sawtooth wedges formed in the outer circumferential surface and the wedge body is inserted into the wall surface of the drill hole for slope reinforcement, the wedge body An insertion cone consisting of a cone body, a cone head portion protruding from the other end of the wedge body and having a tensioning screw portion having a thread formed therein, and a thread for screwing with a thread of the tensioning screw portion at one end thereof; A tension bar fastened to the cone head part, a support fixture to which the tension bar is inserted and fastened at a predetermined interval from the other end of the wedge body, and a plurality of fastening steel wires fastened to the other end surface of the wedge body and the support fixture; It characterized by having a.

Here, the wedge body has a tapered hollow inner surface gradually decreasing in diameter from one end toward the other side, and the other end of the hollow inner surface is formed of a plurality of divided wedge pieces provided with a wedge screw portion. .

In addition, the insertion cone has a cone screw portion for screwing the wedge screw portion, the cone body is formed in a conical shape gradually decreasing in diameter from one end to the other side corresponding to the shape of the hollow inner surface of the wedge body It is characterized by.

Here, the thread of the cone screw portion and the wedge screw portion is characterized in that the cross section is made of a rectangular or square shape.

In addition, the tension bar is inserted and fixed, characterized in that it further comprises a support band for supporting the support and the tension bar.

In addition, the fastening steel, a plurality of first fastening steel, one end is fixed to the other end surface of the wedge body and the other end is fixed to the support fixing body, and one end is fixed to the other end surface of the wedge body The other end is characterized by having a second fastening steel wire protruding toward the tension device through the support fixing body.

Here, the second fastening steel wire is inserted and fixed, one end is characterized in that it further comprises a steel wire support for supporting the support fixing body in contact with the support fixing body.

In addition, the direction of rotation of the thread of the cone screw portion and the wedge screw portion is characterized in that the direction opposite to the rotation direction of the thread of the tension bar and the tension fastening screw portion.

In addition, according to the present invention, a method for constructing a sting anchor with a toothed wedge includes a wedge body having a plurality of toothed wedges formed in an outer circumferential surface of a plurality of toothed wedges penetrating a wall surface of a drill hole for slope reinforcement and having a tapered hollow inner surface. Insert a cone-shaped insertion cone into the screw and screw the wedge body and the insertion cone into the cone head of the insertion cone by inserting the tension bar through which the support fixture and the support band are inserted into the cone head of the insertion cone, and joining the wedge body and the support fixture. Assembling the sting anchor by fixing the fastening steel wire, drilling the perforation hole for slope reinforcement, inserting the sting anchor into the perforation hole for slope reinforcement, and penetrating the support fixture among the fastening steel wire After inserting the second fastening steel wire into the steel wire supporter, the tension bar is rotated while the steel wire support and the second fastening steel wire are fixed, and the The inserted cones rotate relative to the wedge body, so that the divided wedge pieces of the wedge body expand as the conical insertion cone advances, and the plurality of wedges formed on the outer circumferential surface of the wedge piece penetrate the wall surface of the drilling hole. Fixing the anchor anchor first, and after separating the steel wire support to tension the tension bar by the tension device to enter the wall of the drilled hole to dig the wall surface of the drilled hole to further penetrate the wall of the drilled hole to fix the sting anchor secondary Characterized in that it comprises a step.

According to the present invention having the above-described configuration when using the reinforcement in the artificial slope or collapsed slope to prevent the collapse of the slope, since the construction and assembly is simple, waste elements of the construction cost due to the use of an anchor body having a complex configuration The outer surface of most anchor bodies installed in the drilling holes that can not only be prevented but also not visible to the naked eye not only form a dull appearance in the structure of the product, but also install an external fixing device in advance when the tension is applied. It is possible to escape the complexity of construction, which requires grouting using small diameter holes.

In addition, the outside of the wedge body according to the present invention has a sawtooth-shaped wedge while the wedge is dug into the wall of the perforated hole in the earth, sand, weathered rock, blasting rock and squeezed into a squeezing method and then pressed more tightly by the tension force. In order to reinforce artificial cut slopes or collapsed slopes by increasing, it is possible to provide a method of providing and constructing reinforcement materials that can easily and stably prevent collapse of slopes.

1 and 2 is a view showing a slope reinforcing anchor according to the prior art.
Figure 3 is a perspective view showing a Sting-type anchor with a toothed wedge according to the present invention.
4 is a cross-sectional view of Fig.
5 is a view showing the operation of the wedge body of the Sting-type anchor according to the present invention.
6 is a view showing a state after the tension of the Sting-type anchor according to the present invention.
7 is an exploded cross-sectional view of the Sting anchor according to the present invention.
8 is a view showing a state in which the Sting anchor is installed on the cut slope according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with reference to the embodiment of the Sting-type anchor with a serrated wedge according to the present invention and its construction method.

The slope reinforcing anchor according to the present invention has a structure in which the wedge of the anchor penetrates into the wall surface of the cut slope drilling hole, and is referred to herein as a 'stitching anchor'.

3 to 8 is a view showing the Sting-type anchor according to the present invention.

As shown in Fig. 3 to Fig. 8, the Sting-type anchor 1 with the serrated wedge according to the present invention is a wedge body 10, the insertion cone 20, the fastening steel wire 30, the tension bar 40, the support band 50, the support fixture 60, and the steel wire supporter 70 are comprised.

In the present embodiment, the wedge body 10 is formed of a plurality of wedge pieces (10a) separated from each other to be spaced apart from each other according to the forward and backward of the insertion cone to be described later is configured to penetrate into the wall surface of the drilling hole. For example, the wedge piece is formed of four divided wedge pieces 10a, but is not limited thereto, and may be formed of six or more divided wedge pieces.

Wedges 10b are formed on the outer circumferential surface of the wedge piece 10a, and the wedges are formed in a plurality of serrated shapes penetrating the wall surface of the drill hole for slope reinforcement.

The inner surface of the wedge 10 is formed in a hollow so that the insertion cone to be described later can be inserted. The hollow inner surface 10c of the wedge is formed in a tapered shape that gradually decreases in diameter from one end toward the other side, that is, from the end of the slope reinforcing hole toward the front side of the cut slope.

In addition, a wedge screw portion 11 is provided at the other end of the hollow inner surface, that is, the end facing toward the front side of the cut slope, and is configured to screw with the cone screw portion of the insertion cone, which will be described later. Here, the thread of the wedge screw portion 11 is formed so that the cross section is formed in a rectangular or square shape, so that the wedge body can stably resist a greater force when the wedge body is penetrated into the wall surface of the drilling hole and subjected to a tensile force. In addition, the thread of the wedge screw portion is configured to rotate in a direction opposite to the rotation direction of the tension bar and the cone head portion, the insertion cone is rotated when the tension bar is rotated to fix the wedge body to the wall surface of the drilling hole as described below It is configured to be released from the wedge body and to escape to the front side of the cut slope.

In addition, a steel wire fixing hole 12 is formed at the other end end surface of the wedge body, and a thread is formed in the steel wire fixing hole 12 so as to be screwed with a screw thread formed at the end of the fastening steel wire to be described later.

An insertion cone 20 is inserted into the hollow inner surface of the wedge body. The insertion cone 20 is composed of a cone body 21, a cone head portion 22, and a cone screw portion 23.

The cone body 21 is formed in a conical shape of which the diameter gradually decreases from one end to the other side corresponding to the shape of the hollow inner surface of the wedge body, and surrounds the cone body by advancing the cone body. The wedge pieces are spaced apart from each other and are configured to dig into the wall of the drilling hole.

A cone head portion 22 is provided on the front side of the insertion cone so as to protrude from the other end of the wedge body, and a tension tightening screw portion 22a is formed at the center portion of the cone head portion. The tension fastening screw 22a is provided with a concave cut groove in the center portion of the cone head, the thread is formed on the inner surface of the groove is configured to screw the thread of the tension bar to be described later. Here, the thread of the tensioning screw portion is configured to rotate in the opposite direction to the thread of the wedge screw portion.

A cone screw portion 23 is provided between the cone body and the cone head portion. The cone screw portion 23 is configured to be screwed with the wedge screw portion, the cross section corresponding to the cross-sectional shape of the thread of the wedge screw portion is configured to have a rectangular or square shape.

The tension bar 40 is fastened to the tension fastening screw part of the cone head. The tension bar 40 is formed of, for example, a deformed steel bar, and at one end thereof, a thread is formed to screw the tension fastening screw part.

Here, the tension bar may be configured to be fastened by using a conventional reinforcing bar connection member (rebar coupler) as it is without forming a screw thread by replacing the screw coupling by the thread formation of the cone head portion.

The fixing bar 60 and the support band 50 are fastened to the tension bar. The support fixing body 60 is spaced apart from the other end of the wedge body by a predetermined interval and the tension bar is inserted and fastened.

The support fixing body 60, in this embodiment, the outer circumferential surface is formed in a cross shape, but not necessarily limited to this can be formed in various shapes, the steel wire fixing hole corresponding to the number of fastening steel wires on the outer circumferential surface of the support fixing body 61 is formed. The steel wire fixing hole 61 is inserted into the fastening steel wire 30, for example, is configured to fasten the fastening steel wire to the support fixing body 60 by a steel wire fixing member 62, such as fastening bolts.

The front side of the support fixing body, that is, the front side of the cut slope is provided with a support band 50 for supporting the support fixing body. The support band is composed of, for example, a steel band, and an insertion hole is formed in the center to insert and fix the tension bar.

A plurality of fastening steel wires 30 are fastened to the other end surface of the wedge body and the support fixture. One end of the fastening steel wire 30 is formed with a screw thread is inserted into the steel wire fixing hole 12 of the wedge body and screwed with the screw thread formed in the steel wire fixing hole.

In addition, the fastening steel wire is composed of a first fastening steel wire 32 and a second fastening steel wire 31. The first fastening steel is formed in plural, one end is fixed to the other end surface of the wedge body and the other end is configured to be fixed to the support fixing body. The second fastening steel has one end fixed to the other end surface of the wedge body, and the other end is inserted into the support fixing body to be fixed to the support fixing body, and is further extended to the front side so as to protrude to the tension device side. It is composed.

The second fastening steel wire is temporarily inserted into the steel wire support 70 when the sting anchor is first fixed to the drilling hole. The steel wire support member 70 is formed in a hollow pipe shape, for example, PVC pipe or aluminum pipe. The steel wire support is fixed at the same time as the second fastening steel protruding from the support fixing body is inserted so that the wedge body fastened to the fastening steel wire and the fastening steel wire is not rotated together with the tension bar when the tension bar is rotated. Abutment against the support fixture prevents the support fixture from escaping from the tension bar.

The fastening steel wire integrated with the wedge body according to the present invention is automatically bent when the wedge body is expanded so that no separate device is required, and the anchor assembly is made in advance in the factory by bringing the product to the site for use. Of course, the wedge body can be easily manufactured by using a mold manufacturing method, which is a conventional casting technique. In addition, the body material of the wedge body according to the present invention is generally used stainless steel, high strength aluminum material, castings By using cast iron, which is a molding material, not only can a simple material selection be made, but also tension bars, fastening steel wires, steel wire supports, support bands, and support fixtures can be easily purchased and assembled by using commonly used products.

An anchor construction method using the Sting-type anchor of the present invention having the configuration as described above will be described.

In the construction method of the sting anchor provided with the toothed wedge according to the present invention, first, the Sting anchor having the configuration as described above is assembled. That is, a plurality of serrated wedges penetrating the wall surface of the reinforcing hole for slope reinforcement are formed on the outer circumferential surface and a conical insertion cone is inserted into the wedge body having a tapered hollow inner surface, and the wedge body and the insertion cone are screwed together. A tension bar through which the support fixture and the support band are inserted is inserted and coupled to the cone head of the insertion cone, and a fastening steel wire is fixed to the wedge body and the support fixture to assemble the Sting-type anchor.

Then, the perforation hole for slope reinforcement, and the sting anchor is inserted into the perforation hole for slope reinforcement.

Then, the second fastening steel penetrating the support fixing body of the fastening steel wire is inserted into the steel support, and then the tension bar is rotated in the state in which the wire support and the second fastening steel is fixed. At this time, the forming direction of the thread of the tension-locking screw portion of the cone head portion into which the tension bar and the tension bar are inserted is opposite to the forming direction of the thread of the wedge screw portion of the wedge body and the cone screw portion of the insertion cone. As shown in FIG. 6, the insertion cone fastened to the tension bar by the rotation of the tension bar rotates relative to the wedge body so that the conical insertion cone is advanced to the front side of the cut slope. As the insertion cone advances, the divided wedge piece of the wedge body is opened by the hollow inner surface of the conical insertion cone and the tapered wedge body. Accordingly, the plurality of wedges formed on the outer circumferential surface of the wedge piece penetrate the wall surface of the drilling hole to fix the sting anchor primarily.

Then, after separating the steel wire supporter from the second fastening steel wire, the tension bar is tensioned by a tensioning device, so that the wedge which penetrates the wall surface of the drilled hole further penetrates the wall surface of the drilled hole to make the sting anchor more secondary. Will be fixed.

Then, the grouting material is injected into the drilling hole from the front side of the slope and cured to finish the construction by finishing with a fixing device at the end of the slope.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be exemplary and explanatory only and are not to be construed as limiting the scope of the inventive concept. And it is obvious that it is included in the technical idea of the present invention.

1: Sting Anchor
10: wedge body
20: insertion cone
30: fastening steel wire
40: tension bar
50: support band
60: support fixture
70: steel wire support

Claims (9)

delete Slope reinforcement anchor,
A wedge body in which a plurality of serrated wedges penetrating a wall surface of a drill hole for slope reinforcement are formed on an outer circumferential surface thereof,
An insertion cone consisting of a cone main body inserted into the wedge body, a cone head portion protruding from the other end of the wedge body, and having a cone tightening screw portion formed with a thread therein;
A tension bar which is formed at one end with a screw thread which is screwed with the thread of the tension fastening screw part, the tension bar being fastened to the cone head part,
A support fixing body to which the tension bar is inserted and fastened at a predetermined interval from the other end of the wedge body;
And a plurality of fastening steel wires fastened to the other end surface of the wedge body and the support fixing body,
The wedge body has a tapered hollow inner surface gradually decreasing in diameter from one end toward the other side, and the other end of the hollow inner surface is formed with a plurality of divided wedge pieces provided with wedge screws. Sting anchor with wedge.
3. The method of claim 2,
The insertion cone has a cone screw portion for screwing the wedge screw portion,
Stinging anchor with a sawtooth wedge characterized in that the cone body is formed in a conical shape gradually decreasing in diameter from one end toward the other side corresponding to the shape of the hollow inner surface of the wedge body.
3. The method of claim 2,
Sting anchor with serrated wedge, characterized in that the thread of the cone screw portion and the wedge screw portion of the cross section is made of a rectangular or square shape.
3. The method of claim 2,
Sting-type anchor having a serrated wedge, characterized in that the tension bar is inserted and fixed, and further comprising a support band for supporting the support body and the tension bar.
The method of claim 2, wherein the fastening steel wire,
A plurality of first fastening steel wires having one end fixed to the other end surface of the wedge body and the other end fixed to the support fixing body;
Sting-type anchor with a toothed wedge characterized in that one end is fixed to the other end surface of the wedge body and the other end has a second fastening steel wire protruding toward the tension device by inserting the support fixing body.
The method according to claim 6,
Sting-type anchor with a toothed wedge, characterized in that the second fastening steel wire is inserted and fixed and one end is in contact with the support fixing body further comprises a steel wire support for supporting the support fixing body.
The method of claim 3, wherein
Sting anchor with serrated wedge, characterized in that the direction of rotation of the thread of the cone screw portion and the wedge screw portion is opposite to the rotation direction of the thread of the tension bar and the tension screw.
In the method of installing the slope reinforcing anchor,
A plurality of serrated wedges penetrating the wall surface of the reinforcing hole for slope reinforcement are formed on the outer circumferential surface, and a cone-shaped insertion cone is inserted into the wedge body having a tapered hollow inner surface, and the wedge body and the insertion cone are screwed together. And inserting the tension bar through which the support band is inserted and inserted into the cone head of the insertion cone, and assembling a sting anchor by fixing a fastening steel wire to the wedge body and the support fixture;
Drilling a slope reinforcing hole,
Inserting the sting anchor into a perforation hole for slope reinforcement;
After inserting a second fastening steel wire that penetrates the support fixing member among the fastening steel wires to the steel wire supporter, the insertion cone fastened to the tension bar by rotating the tension bar while the steel wire supporter and the second fastening steel wire are fixed to the wire fastening member. As the wedge body rotates relative to the conical insertion cone, the divided wedge piece of the wedge body opens so that a plurality of wedges formed on the outer circumferential surface of the wedge piece penetrate the wall surface of the hole to fix the sting anchor primarily. To do that,
And removing the wire support by tensioning the tension bar by a tensioning device so that wedges digging into the wall surface of the drilled hole further penetrate the wall surface of the drilled hole to fix the sting anchor secondary. Construction method of the Sting anchor with a wedge.

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