KR102022906B1 - Anchor and construction method thereof - Google Patents

Abstract

The present invention relates to a fixed anchor for constructing a slope and a constructing method using the same. The fixed anchor for constructing a slope comprises a fixed anchor member, a tube expanding anchor member, a fixed member, and a compressed spring member. The fixed anchor member includes an anchor body which is formed in a cylindrical body having a smaller diameter than a diameter of a perforating hole, and a fixed rod which is extended to a predetermined length from the center of the anchor body. The tube expanding anchor member includes a sliding pipe which is formed in a hollow of a larger diameter than a diameter of the fixed rod, a taper cone which is installed in one end of the sliding pipe, and an anchor wing which is divided into four parts in the outside of the taper cone and is moved. The fixed member is fixed in a front end of the fixed rod and is combined with a front end of the sliding pipe to be separated. The compressed spring member is installed between the tube expanding anchor member and the fixed member to move the taper cone. The present invention conveniently expands the tube expanding anchor member by elastic force of a compressed spring, stably installs the fixed anchor for constructing a slope by allowing the anchor wing of the expanding anchor member to be compressed to the outside of the perforating hole, and straightly and stably maintains the anchor member and the taper cone by a wire.

Description

Fixed anchor for inclined plane construction and construction method using same

The present invention relates to a fixed anchor for slope surface construction and a construction method using the same, and more specifically, the fixed anchor for slope surface construction by releasing the fixing pin in a state in which the fixed anchor for slope surface construction is inserted into the drilled hole. It relates to a fixed anchor for the slope surface installation and a construction method using the same that is firmly installed in the drilling hole.

In general, when the civil works of industrial complexes such as residential complexes, industrial complexes, railways, highways, tunnels, artificial steep slopes are created due to natural slopes or excavation.

Naturally and artificially formed slopes are exposed to the risk of cutting and collapse due to various factors such as earth pressure, wind pressure, water pressure, and earthquake.

Therefore, various slope reinforcement methods such as soil nailing, rock bolting, and permanent anchor method are used to prevent cutting and collapse of the slope.

Soil nailing method of the slope reinforcement method is to first select the slope surface, then drill a plurality of reinforcing holes from the upper portion of the slope surface to the lower portion at regular intervals, and compressed foreign matter such as soil debris in the reinforcing hole or After spraying and removing the high pressure water, a nail (nail: deformed steel) is inserted and grout (grout: cement + water) is filled in the reinforcing hole, and then a plate is installed at the inlet of the reinforcing hole. In this way, the nails are sequentially inserted into the reinforcing holes at the bottom of the slope to complete grouting, and the surface recording or shotcrete of the slope is completed to complete the slope reinforcement.

However, in the conventional small nailing method, the nail structure and the grout are inserted and injected into the reinforcing hole and are simply inserted into the reinforcing hole in a hardened state, so that the slope cannot be reliably reinforced and grouted to the upper reinforcing hole of the slope. After curing for 7 days, there was a problem that the construction period takes a long time because the nail insertion and grouting work is made in the lower reinforcing hole.

In order to solve the problems of the traditional small nailing method as described above, by applying the anchor method to the existing nailing method, a short nail anchor anchor of various structures that shortened the slope reinforcement construction period and strengthened the tensile resistance.

However, the conventional small nail anchor that improves the traditional small nailing method is a problem that does not secure a more stable and tight fixing force in the process of the anchor blade or expansion anchor which is a fixing means of the nail anchor structure is inserted into the inner wall of the drilling hole There is this.

In addition, when the tensile force is introduced into the anchor body or the anchor body, there is a problem that the reconstruction of the anchor body or the expansion anchor is recessed and the anchoring force is lost because the front inner wall of the anchor body or the expansion anchor is lost.

In addition, during the development of anchor blades or expansion anchors, separate tools such as a pneumatic rotary mechanism or a locking tool are removed and removed, and grouting is performed in the drill hole using a grouting machine, thereby reducing the continuity and ease of installation. There was a problem.

For example, Patent Document 1 discloses a 'slope reinforcement small nail anchor'.

The small nail anchor for slope reinforcement work according to Patent Document 1 is a small nail anchor that radially expands several spikes to fix the body to the inner wall of the reinforcing hole, wherein a male screw part is formed on the upper outer circumferential surface, and a nail on the upper surface Spiral holes are formed to be coupled, and several pressure chambers with threaded portions formed on the upper inner circumferential surface penetrate around the spiral holes, and the upper body with female threads formed in the center of the lower surface directly below the spiral holes, and the female threaded portion of the upper body. A central shaft having a male thread coupled to it is formed to protrude upward toward the inner center, and a recess is formed between the central shaft and the edge portion, and several seating grooves formed with screw holes are formed on the outer circumferential surface of the edge portion, respectively. The stoppers are respectively coupled by fixing bolts coupled to each other, and the upper surface of the rim portion and the one side of the mounting groove And through the side holes formed at least one mount, the ball bearing is inserted into the mounting hole of the bottom rim portion protruding to the upper surface and each provided with a screwing the lower body.

Slide grooves and ball bearing grooves are formed on the bottom, and arc-shaped vertical surfaces are formed on the bottom surface so as to be seated on the upper end of the stopper protruding to the upper surface of the lower body edge, and an acute edge is formed by the upper acute surface and the lower acute surface on the outside. Is formed, a spike formed with an inclined surface inclined toward the center lower end of the arc vertical surface from the upper center of the upper acute surface, the piston ring is coupled to the outer circumference and inserted into the pressure chamber of the upper body, supplying compressed air to the upper side The first branch pipe is coupled to the main hose and the first branch hose is respectively coupled to both sides, and the pair of second branch pipes are respectively coupled to the first branch hose and the second branch hose is coupled to both sides. And a branching device coupled to each of the two pair of second branch hoses and connected to a threaded portion of the pressure chamber, and a male screw portion and a screw body of the upper body. As binding to include ball posters Building female screw portion is formed on the inner surface of the lower inner walls of the reinforcement hole to prevent the depression of the upper body to the periphery.

Patent Document 2 discloses a 'soil nailing device'.

Soil nailing device according to Patent Document 2, in the Soil nailing device, the insertion body is formed so that the underground anchor is inserted, disposed, inserted into the buried hole, protruding spirally on the outer peripheral surface of the insertion body, the insertion The rotating screw which is moved forward and backward on the inner wall surface of the buried hole according to the rotational direction of the main body, a rotation force input member integrally formed at the front part of the insertion main body so that the rotational force can be applied to the insertion main body, and grouted into the buried hole. It includes an injection member formed in the insertion body to inject mortar.

Republic of Korea Patent Publication No. 10-2008-0098167 Republic of Korea Patent Registration No. 10-1147612 Republic of Korea Patent Registration No. 10-0704774

An object of the present invention is to solve the problems as described above, fixed anchor for the slope surface construction anchoring member is installed firmly inside the drilling hole by the elastic force of the compression spring member in accordance with the release of the fixing pin member and It is to provide a construction method used.

In order to achieve the object as described above, the fixed anchor for slope surface construction according to the present invention is composed of an anchor body made of a cylindrical body having a diameter smaller than the diameter of the hole, the fixing rod extending to a predetermined length from the center of the anchor body Expansion anchor consisting of a fixed anchor member, a sliding pipe formed into a hollow having a diameter larger than the diameter of the fixed rod, a tapered cone installed at one end of the sliding pipe, and an anchor wing which is divided into four and movable outside the tapered cone. And a fixed member fixed to the front end of the fixing rod, the fixed member detachably coupled to the front end of the sliding pipe, and a compression spring member installed between the expansion anchor member and the fixed member to move the taper cone. Elasticity of the compression spring member by releasing the expansion anchor member To is characterized in that while moving the tapered cones are fixed to the anchor blades are flaring outwardly the puncturing hole.

And a wire member installed on the fixed anchor member, the expansion anchor member, and the fixing member, wherein the wire member is a wire fixing plate installed on one surface of the anchor body, and the fixing member on one surface of the wire fixing plate. It is characterized in that it comprises a; wire through and connected to the fixing plate.

The fixed anchor member may include a guide groove formed on one surface of the anchor body in a dozen shape, and a plurality of wire holes formed in the longitudinal direction of the anchor body.

A sliding pipe of the expansion anchor member is formed with a slit groove portion at one end of the sliding pipe, and a plurality of wire holes are formed in the tapered cone so that the wire penetrates, and one surface of the tapered cone is aligned along the guide groove portion. It is characterized in that the guide projection is formed so as to move up.

The fixing member may include a central coupling hole formed to detachably couple the sliding pipe, a plurality of wire holes formed to penetrate the wire to the outside of the central coupling hole, and penetrate the fixing rod to prevent the fixing rod from being separated. And a fixing pin fixed between the sliding pipe and the central coupling hole to separate the sliding pipe coupled to the central coupling hole.

In addition, in order to achieve the object as described above, the construction method using a fixed anchor for slope surface construction according to the present invention comprises the steps of (a) forming a drill hole inclined at a predetermined angle, (b) slope surface construction at the tip of the drilling hole Inserting a fixed anchor for the, (c) by removing the fixed pin installed in the fixed anchor for the slope surface construction by moving the taper cone of the expansion anchor member by the elastic force of the compression spring member installed between the fixed member and the expansion anchor member Expanding the anchor blades coupled to the outer side of the tapered cone to be firmly coupled to the outer side of the drilling hole, (d) Grout construction step of constructing the grout in the drilling hole in which the fixing anchor for the slope surface construction; It is characterized by including.

As described above, according to the fixed anchor for the sloped surface construction and the construction method using the same according to the present invention, it is possible to easily expand the expansion anchor member by the elastic force of the compression spring, the anchor wing of the expansion anchor member is press-fitted to the outside of the drilling hole Thus, the fixed anchor for slope surface construction can be installed stably, and the anchor body and the tapered cone can be stably held in a straight line by wires.

According to the fixed anchor for the sloped construction according to the present invention and a construction method using the same, the fixed anchor for the sloped construction can be inserted into the drilling hole, and then the fixed anchor member can be easily installed by expansion of the expansion anchor member, and the fixed anchor member is installed. The effect is simple that the process can be shortened significantly.

1 is a three-dimensional view showing a fixed anchor for the sloped construction according to a preferred embodiment of the present invention,
Figure 2 is an exploded three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention,
Figure 3 is an exploded three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention,
Figure 4 is an exploded three-dimensional view showing a fixed anchor for slope surface construction according to an embodiment of the present invention,
Figure 5 is a cross-sectional three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention,
Figure 6 is a cross-sectional three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention,
7 is a cross-sectional view showing a state before expansion of the fixed anchor for the slope surface construction according to a preferred embodiment of the present invention,
8 is a cross-sectional view showing an expanded state of the fixed anchor for the slope surface construction according to an embodiment of the present invention,
Figure 9 is a three-dimensional view showing a state in which the fixed anchor for the slope surface construction according to an embodiment of the present invention,
10 is a three-dimensional view showing a state in which a fixed anchor for the slope surface construction according to a preferred embodiment of the present invention,
11 is a cross-sectional view showing a state in which a fixed anchor for slope construction according to an embodiment of the present invention is installed,
12 is a process chart showing a construction method of a fixed anchor for slope surface construction according to a preferred embodiment of the present invention.

Hereinafter will be described in detail with reference to the accompanying drawings, a fixed anchor for the slope surface construction and a construction method using the same according to a preferred embodiment of the present invention.

Fixed anchor for slope surface construction according to a preferred embodiment of the present invention is an anchor body 11 made of a cylindrical body having a diameter smaller than the diameter of the hole, the fixing rod 14 extending from the center of the anchor body 11 to a predetermined length A fixed anchor member 10 made of a), the sliding pipe 21 formed in a hollow of a diameter larger than the diameter of the fixed rod 14, the tapered cone 23 is installed on one end of the sliding pipe 21, the taper Expansion anchor member (20) consisting of anchor blades (25) which are divided into four and disposed on the outside of the cone (23), and fixed to the tip of the fixing rod (14), and the tip of the sliding pipe (21). The fixing member 30 is detachably coupled to each other, and the compression spring member 40 is installed between the expansion anchor member 20 and the fixing member 30 so that the tapered cone 23 is moved.

Fixed anchor for slope surface construction according to an embodiment of the present invention by installing the expansion anchor member by the elastic force of the compression spring member can easily and quickly install the fixed anchor for slope surface construction, fixed anchor member, expansion pipe by a plurality of wires Make sure that the anchor member is firmly installed on the fixing plate.

1 is a three-dimensional view showing a fixed anchor for the slope surface construction according to a preferred embodiment of the present invention, Figure 2 is an exploded three-dimensional view showing a fixed anchor for the slope surface construction according to a preferred embodiment of the present invention.

As shown in Figures 1 and 2, the fixed anchor for the slope-surface construction according to an embodiment of the present invention is a fixed anchor member 10, the fixed anchor member (10) is inserted into the drilling hole (see 1, 11) The expansion anchor member 20, which is expanded and fixed to a diameter larger than the diameter of the drilling hole 1 and is spaced apart from the expansion anchor member 20 by a predetermined distance so that 10 is not separated from the outside of the drilling hole 1. Compression spring member 40 and the fixed anchor member 10 which is installed between the expansion anchor member 20 and the fixing member 30 so that expansion of the expansion anchor member 20 is made by the fixing member 30, which is an elastic force. ) And a wire member 50 connected between the fixing member 30.

3 is an exploded three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention, Figure 4 is an exploded three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention, Figure 5 Is a cross-sectional three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention, Figure 6 is a cross-sectional three-dimensional view showing a fixed anchor for slope surface construction according to a preferred embodiment of the present invention.

As shown in Figures 1 to 6, the fixed anchor member 10 is an anchor body 11 made of a cylindrical body having a predetermined length, a wire hole formed so that the wire 52 penetrates through the anchor body 11 12, a guide groove 13 formed on one surface of the anchor body 11, a fixed rod 14 fixed to a surface of the anchor body 11 to a predetermined length, the tip of the fixing rod 14 It includes a fixing hole 15 formed in.

The fixed anchor member 10 has a plurality of wire holes 12 formed in the longitudinal direction of the anchor body 11 and guide grooves formed in a dozen shape on one surface of the anchor body 11 ( 13) is formed.

The anchor body 11 is formed of a cylindrical body having a predetermined diameter so that the anchor body 11 can be fitted into the drilling hole 1, the anchor bone pen 11 has a wire hole to penetrate the wire 52 of the wire member 50; 12) is formed.

The wire holes 52 are formed in the same number as the wire holes 32 formed in the fixing member 30.

In addition, a guide groove 13 is formed on one surface of the anchor body 11, that is, the surface facing the expansion anchor member 20, and four guide grooves 13 are formed to correspond to the four anchor wings 25, respectively. Is formed.

A fixing rod 14 having a predetermined length is fixed to the center of the guide groove 13, and a fixing hole 15 is formed at the tip of the fixing rod 14 to be fixed to the fixing member 30.

The expansion anchor member 20 is formed with a length shorter than the length of the fixed rod 14, the sliding pipe 21 is installed on the outside of the fixed rod 14, is formed on one end of the sliding pipe 21 Tapered cone 22, formed on the outer side of the tapered cone 22 is divided into four anchor wings (25) to be installed to move, the band 28 to bind the four divided anchor wings (25) is formed And a guide protrusion 28 formed to move in a straight line along the band fixing groove 26 and the guide groove 13.

The sliding pipe 21 of the expansion anchor member 20 is formed with a slit groove 22 at one end of the sliding pipe 21, and a plurality of wires 52 penetrate through the tapered cone 23. A wire hole 24 is formed, and a guide protrusion 28 is formed on one surface of the tapered cone 23 to move in a straight line along the guide groove 13.

The sliding pipe 21 is installed on the outside of the fixing rod 14, the slit groove portion 22 is formed at one end of the sliding pipe 21 to be fitted to the fixing member 30 to maintain a temporarily fixed state.

That is, the slit groove portion 22 is fitted into the central coupling hole 31 of the fixing member 30, and the fixing pin 35 is coupled between the slit groove portion 22 and the central coupling hole 31 by interference fit. It is fixed to the fixing member 30 accordingly.

The other end of the sliding pipe 21 is provided with a tapered cone (23) tapered on the outer surface, the tapered cone 23 is formed to be inclined on the outer surface so that the expansion of the anchor wing (25) is installed on the outside.

One side of the tapered cone 23 is formed with a small diameter, the other side of the tapered cone 23 is formed with a large diameter so that the outer surface is inclined at a predetermined angle.

In addition, a plurality of wire holes 24 are formed in the tapered cone 23 so that the wire 52 of the wire member 50 penetrates, and the anchor wings 25 divided into four are formed on the outer side of the tapered cone 23. Is installed.

The outer surface of the anchor blade 25 is formed with a band fixing groove 26 to stably maintain the state bound by the band 28, the inner surface of the anchor blade 25 and the inclined surface of the tapered cone (23) The inner inclined surface 27 inclined at the same angle is formed.

One surface of the anchor wing 25, that is, the surface in contact with the anchor body 11 is formed with a guide protrusion 28 to move in a straight line along the guide groove (13).

The fixing member 30 includes a plurality of central coupling holes 31 formed to detachably couple the sliding pipe 21 and a plurality of wires 52 penetrating through the outer side of the central coupling hole 31. A wire bolt 32, a fixing bolt 34 fixed through the fixing rod 14 to prevent the fixing rod 14 from being separated, and the sliding pipe 21 coupled to the center coupling hole 31 Fixing pin 35 is provided between the sliding pipe 21 and the center coupling hole 31 to be separated.

The fixing member 30 is formed of a disc having a predetermined diameter, the center coupling hole 31 is formed in the center of the fixing member 30 so that the sliding pipe 21 is fitted, the center coupling hole 31 A plurality of wire holes 32 are formed on the outside of the.

The wire hole 32 is formed differently according to the diameter of the anchor body 11, when the diameter of the anchor body 11 is large 6 to 8 wire holes 32 can be formed, the anchor body ( If the diameter of 11) is small, of course, two to four wire holes 32 may be formed.

In addition, the fixing member 30 may be formed with an auxiliary wire hole 32a together with the wire hole 32. The auxiliary wire hole 32a allows the wire to be installed in addition to the wire 52 installed in the wire hole 32.

In addition, a through hole 33 is formed in the outer surface of the fixing member 30, and a fixing bolt 34 is fastened to the through hole 33. The fixing bolt 34 is fastened to the fixing hole 15 of the through hole 33 and the fixing rod 14, and the fixing member 14 of the fixing member 30 and the fixing anchor member 10 by the fixing rod 14. Keep the distance constant.

In addition, the fixing member 30 is provided with a fixing pin 35 for fixing the sliding pipe 21 is not separated. A fixing hole 35a is formed in the fixing pin 35, and a wire 35b is coupled to the fixing hole 35a so as to pull the fixing pin 35 from the fixing member 30 and separate the fixing pin 35.

7 is a cross-sectional view showing a state before expansion of the fixed anchor for the slope surface construction according to a preferred embodiment of the present invention, Figure 8 is a cross-sectional view showing an expanded state of the fixed anchor for slope surface construction according to a preferred embodiment of the present invention to be.

As shown in Figure 7 and 8, the compression spring member 40 is installed between the expansion anchor member 20 and the fixing member 40, the compression spring member 40 is fixed to the fixing pin (35) When the sliding pipe 21 is separated from the fixing member 30 by pulling the connected wire 35b, an elastic force for moving the tapered cone 23 of the expansion anchor member 20 toward the anchor body 11 is provided. .

The fixed anchor member 10 and the fixed member 30 is provided with a wire member 50, the wire member 50 is a wire fixing plate 51 and a predetermined length is installed on one surface of the anchor body (11) It includes a wire 52 having a.

A wire 52 is connected to one surface of the wire fixing plate 51, and the wire 52 is connected to a fixing plate 55 (see FIG. 11) installed on a slope.

Next, the coupling relationship of the fixed anchor for the sloped construction according to the preferred embodiment of the present invention.

9 is a three-dimensional view showing a state in which the fixed anchor for the slope surface construction according to a preferred embodiment of the present invention, Figure 10 is a view showing a state in which the fixed anchor for slope surface construction according to a preferred embodiment of the present invention Figure 11 is a three-dimensional view, Figure 11 is a cross-sectional view showing a state in which a fixed anchor for slope surface construction according to a preferred embodiment of the present invention is installed.

1 to 11, the fixing rod 14 is fixed to the anchor body 11 of the fixing anchor member 10 integrally, the fixing rod 14 on the outside of the fixing rod 14 A hollow sliding pipe 21 having a larger diameter is installed.

In addition, the outer side of the tapered cone 23 fixed to one end of the sliding pipe 21 is provided with four anchor blades 24 divided into, and the band fixing groove 26 of the anchor blades 24 divided into a plurality The band 28 which binds the anchor blade 24 is installed.

Meanwhile, one end of the sliding pipe 21 is fitted into the center coupling hole 31 of the fixing member 30, and the sliding pipe 21 is maintained in a coupled state by being pressed so as not to be separated from the fixing member 30. The fixing pin 35 is inserted between the sliding pipe 21 and the center coupling hole 31 so as to be coupled thereto.

In addition, a compression spring member 40 is installed between the taper cone 23 and the fixing member 30 so that the taper cone 23 is moved. When the compression spring member 40 is released from the fixing pin 35 from the fixing member 30 and released, the compression spring member 40 presses and moves the tapered cone 23 toward the anchor body 11.

The anchor blade 25 provided on the outer side of the tapered cone 23 is expanded to the outside of the tapered cone 23 while extending the band.

Next, with reference to Figure 12 will be described the operation method of the construction method using a fixed anchor for slope surface construction according to a preferred embodiment of the present invention.

12 is a process chart showing a construction method of a fixed anchor for slope surface construction according to a preferred embodiment of the present invention.

According to an embodiment of the present invention, a method of constructing a fixed anchor for a sloped surface construction includes the steps of (a) forming a drilled hole inclined at a predetermined angle, and (b) inserting a fixed anchor for the sloped surface construction into the tip of the drilled hole. c) an anchor coupled to the outside of the tapered cone by separating the fixing pins installed on the inclined anchor for the inclined surface by moving the taper cone of the expansion anchor member by the elastic force of the compression spring member installed between the fixing member and the expansion anchor member. And expanding the blade to be firmly coupled to the outside of the drilling hole, and (d) a grout construction step of constructing a grout in the drilling hole in which the fixing anchor for slope surface construction is installed.

As shown in Figures 1 to 12, to form a drilling hole (1) having a predetermined diameter so as to fit the fixed anchor for the slope surface construction to the slope to be installed to the fixed surface anchoring construction (S10).

Inside the drilling hole (1) is inserted a fixed anchor for slope construction (S20).

As described above, in the state in which the fixed anchor for slope construction is inserted into the drilling hole 1, the operator pulls the wire 35b installed on the slope anchoring anchor to separate the fixing pin 35 and the fixing pin 35. As the spring is separated, the compression spring member 40 pushes the tapered cone 23 toward the anchor body 11.

Accordingly, the anchor blades 25 installed on the outer side of the tapered cone 23 are moved to the outside of the drilled hole 1 by the movement of the tapered cone 23. That is, the anchor blade 25 is expanded to a diameter larger than the diameter of the drilling hole (1), so that the anchor blade 25 is pressed to the drilling hole (1) by the tapered cone 23 is maintained stably It is developed (S30).

On the other hand, the wire 52 is installed from the wire fixing plate 51 to the fixing plate 55, and as the worker pulls the wire 52 to the fixing plate 55, the wire 52 is tapered cone (3). The unfolded state of the unfolds more stably.

Thus, grout is injected into the drilling hole 1 in a state in which the fixed anchor for the slope-surface construction is deployed in the drilling hole 1 (S40).

As mentioned above, although the invention made by the present inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary.

10: fixed anchor member 11: anchor body
12: wire hole 13: guide groove
14: fixing rod 15: fixing hole
20: expansion pipe anchor member 21: sliding pipe
22: slit groove 23: taper cone
24: wire hole 25: anchor wing
26: band fixing groove 27: the inner inclined surface
28: guide protrusion
30: fixing member 31: center coupling hole
32: wire hole 33: through hole
34: fixing bolt 35: fixing pin
40: compression spring member
50: wire member 51: wire fixing plate
52: wire
55: fixed plate

Claims (6)

A fixed anchor member (10) consisting of an anchor body (11) consisting of a cylindrical body having a diameter smaller than the diameter of the drilling hole, and a fixing rod (14) extending from the center of the anchor body (11) to a predetermined length;
Sliding pipe 21 formed in a hollow of a diameter larger than the diameter of the fixed rod 14, tapered cone 23 is installed on one end of the sliding pipe 21, divided into four outside the tapered cone (23) Expansion anchor member (20) consisting of anchor blades (25) installed to be movable;
A fixing member 30 fixed to the tip of the fixing rod 14 and having a front end of the sliding pipe 21 detachably coupled thereto;
A compression spring member (40) installed between the expansion anchor member (20) and the fixing member (30) to move the taper cone (23); And
And a wire member 50 installed on the fixed anchor member 10, the expansion anchor member 20, and the fixed member 30.
The wire member 50 is a wire fixing plate 51 which is installed on one surface of the anchor body (11);
In one surface of the wire fixing plate 51 includes a wire 52 penetrating through the fixing member 30 to the fixing plate 55,
As the tapered cone 23 is moved by the elastic force of the compression spring member 40 by the release of the expansion anchor member 20, the anchor blade 25 is extended and fixed to the outside of the drilling hole,
The fixed anchor member 10 has a plurality of wire holes 12 formed in the longitudinal direction of the anchor body (11);
A guide groove portion 13 is formed on one surface of the anchor body 11 in the shape of a dozen (twist),
The sliding pipe 21 of the expansion anchor member 20 is formed with a slit groove 22 at one end of the sliding pipe 21,
A plurality of wire holes 24 are formed in the tapered cone 23 so that the wire 52 penetrates, and guide protrusions are formed on one surface of the tapered cone 23 to move in a straight line along the guide groove 13. Fixed anchor for slope surface construction, characterized in that the 28 is formed. delete delete delete The method of claim 1,
The fixing member 30 has a central coupling hole 31 formed to be detachably coupled to the sliding pipe 21;
A plurality of wire holes 32 formed to penetrate the wires 52 on the outside of the center coupling hole 31;
A fixing bolt 34 fixed through the fixing rod 14 to prevent the fixing rod 14 from being separated;
And a fixing pin (35) installed between the sliding pipe (21) and the central coupling hole (31) so that the sliding pipe (21) coupled to the central coupling hole (31) is separated. Fixed anchor for sloped construction. delete

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