KR20090131807A - The engineering work method and sloping surface use earth anchor - Google Patents

Abstract

PURPOSE: An earth anchor for slope reinforcement and a construction method thereof are provided to prevent sliding of slope by installing the earth anchors in a double structure within excavated holes. CONSTITUTION: An earth anchor for slope reinforcement comprises a head(13), a casing body(15), a blade(20), and a first anchor(10), a second anchor(10'), a connection member(24), and a wire(25). The head is a steel rod(11) comprised of notched bars. The head is connected to one end of the steel rod by welding and bolting. The casing body has a hollow part to receive the head, and hinge parts(18) on both ends. The blade is formed in the casing body. The connection member passes through the head of the second anchor and is fixed to the end of the steel rod. The wire gives tension between the connection member and an anchor plate.

Description

Earth anchor for slope reinforcement and earth anchor construction method using the same {The engineering work method and sloping surface use earth anchor}

The present invention relates to an earth anchor for slope reinforcement, and an earth anchor construction method using the same, which is installed to reinforce the stability of the soil due to sedimentation or loss of soil.

In particular, the mountain is inevitably cut for road construction. In this case the cut slopes must be reinforced. It is common to install earth anchors for this purpose. Earth anchor is connected to one end of the wire to the anchor and the other end is fixed to the pressure plate to give a tension force to the pressure plate to prevent the sliding of the slope in the present invention is to install the anchor double and grout between the anchor and the anchor And an anchor for slope reinforcement and a construction method using the same to form a fixed end and protect the slope by generating a tensile force of the wire between the anchor and the pressure plate connected to the wire.

Conventionally, various slope reinforcement earth anchors have been developed and provided for slope reinforcement.

As the industry develops, it is inevitable to develop slopes such as mountain roads such as foundation roads and complexes. Currently, the sliding reality of slopes is constantly occurring regardless of time and place, and acts as a threat to life and property. Doing

Therefore, the earth anchor method using a wire is most widely used as a stabilization method for suppressing the collapse and sliding of the slope.

Here, the earth anchor is a method of installing a tensile material (anchor structure) on the ground to form a composite reinforcement ground while maximizing the strength of the ground, thereby increasing the shear and tensile strength of the ground to suppress displacement and prevent the ground from loosening. .

In other words, the basic design concept of the earth anchor construction is to maintain stability on any inclined surface that can be assumed by the reinforced earth wall by acting as an integral retaining wall. will be. Earth anchors have been used for temporary earthquake structures, foundation trenches, etc., but in recent years, the applications of the ground anchors have been expanded to include slope reinforcement of roads, rock reinforcement of railways, dams, and tunnel shafts. However, this earth anchor is a combination of rock anchors, which are useful for soils, and the rock structures of various slopes are different from soils. Discontinuity is developed due to the blasting effect and many slope structures, such as the rock, separated from the mother rock, are unstable. Therefore, there is a significant problem in reinforcing the rock slope with only the earth anchor using the existing wire.

In the conventional anchor structure using wires, a slope reinforcement structure was installed by inserting an earth anchor connected to a plurality of wires in a drilling hole and pulling the ground anchor to the ground or rock, and then fixing the wire to the pressure plate. As time goes by, the earth anchor fixed to the drilling hole is pushed out of the ground, so that the tension of the wire disappears and there is a problem of sliding on the slope of the ground.

Looking at the pre-registration technology in this field, the wedge-type anchor of Patent No. 0598024 is a fixing head 10 is inserted into the anchor hole (A); A hollow casing 20 disposed behind the fixing head; At least one tension member (30) inserted into the casing and having a front end fixed to the fixing head and a rear end connected to acupressure means (31) outside the anchor; And, including a packer 40 is installed on the outer peripheral surface of the rear end of the casing, wing support ring 60 is coupled to the slidable portion of the casing; One or more anchor blades 50 having one end rotatably connected to the circumference of the casing are moved together when the casing moves and the free end is extended by the wing support ring and wedged into the ground around the anchor hole. It is comprised. Patent No. 0598024 configured as described above, when the anchor 30 is inserted into the hole and the tension member 30 is pulled, the fixing head 10 is pulled and the wing connecting portion is moved to the hole inlet side, and the wing supporting ring is not moved. Anchor blades that were moved along the wing to be unfolded by the wing support ring so that the anchor blades support the inner wall of the perforation hole, but this is the pulling force in the process of pulling the tension member to move to the tension member side packer installed on the rear ( Anchor wings (50) to be moved to prevent the movement of the wing support ring 40 is opened, but the anchor is not expanded because the packer is pulled together by pulling the tension member. That is, the anchor having a tension member in the form of a wire is not grouted, but the anchor blades are unfolded from the inside of the drilling hole to be hung on the inner wall of the drilling hole, and the tension member connected to the fixing head is pulled and fixed by a pressure plate installed at the entrance of the drilling hole to be a tension member. With the configuration that the wire is continuously pulled to bind the ground, Patent No. 0598024 has a problem that when the ground begins to slide, the tensile force of the tension member is reduced to zero, and the ability to resist vertical load or slope load is not useful at all.

The present invention is to solve such a problem, install a fixed anchored grout by installing the earth anchors in the drilling hole in a predetermined interval in a predetermined interval, the one end of the wire is connected to one end of the wire anchor wire and the other end of the pressure plate It is intended to prevent the slope from sliding by connecting to, and to improve the slope load resistance and binding tension of the ground.

 The present invention relates to an earth anchor for slope reinforcement installed to reinforce the slope, and grouted between the first anchor 10 and the second anchor 10 'so as to support the wire to form a fixed end. 2 Between the connecting member 24 and the pressure plate 50 on one side of the anchor 10 ', a tension wire 25 is installed to protect the slope, thereby preventing the slope of the ground from sliding and It is to provide an earth anchor for slope reinforcement, which has the characteristics of simplicity, reinforcement of the tension on the slope, simplicity of the components, and saving work time.

The present invention consists of the first anchor and the second anchor in the form of a nail nail anchor to anchor the wire anchor so that the wire has a solid support force to improve the tensile force and a strong tensile force even after a lot of time after construction It has the effect to maintain, and installs a plurality of blades having a support protrusion on the upper casing body with the first and second anchors in the casing body by a simple operation of pulling the reinforcing bar with wire when installed in the drilling hole The head pushes the bottom of the support protrusion of the blade to expand the blade to the wire hanging on the inner wall of the hole to support the wire is easy to expand the blade is easy to shorten the construction time of the earth anchor has the effect of reducing the air and dead costs.

Hereinafter, an embodiment of the present invention will be described in detail.

In the earth anchor used as the slope preventing reinforcement member,

A head 13 connected to one end of the reinforcing bar 11 made of rebar by welding or bolting;

A casing body (15) having a space (16) formed to accommodate the head (13) and having a plurality of hinge portions (18) at both ends;

A blade 20 installed to be extended outwardly to the hinge portion 18 formed on the casing body 15;

The support protrusion 23 is formed inside the lower end of the blade 20, but the bottom inclination angle of the support protrusion constitutes the first anchor 10 formed to correspond to the top inclined surface 14 of the head 13.

A second anchor 10 'connected to the other end of the reinforcing rod 11 so as to pass through the head 13;

A connection member 24 fixed to an end of a reinforcing rod protruding from the head 13 of the second anchor 10 ';

The wire 25 is connected to the ground member 1 so as to be connected between the connecting member 24 and the pressure plate 50 to slide the slope.

The blade is characterized in that formed by the reinforcing piece 22 having a wing body 21 and the hinge portion (18).

Since the wing body 21 is installed at the upper end of the casing body to be made in the same shape as the shape of the casing body 15 and the reinforcing piece having a hinge is installed inside the wing body is formed with a support projection and the hinge portion at the lower end.

The wire is characterized in that a plurality of steel wire 27 is located in the cladding pipe 26 is filled with grease (28).

The earth anchor is grouted between the first anchor 10 and the second anchor 10 'to form a fixed end in the form of a small rail anchor, and the connecting member 24 and the pressure plate 50 on one side of the second anchor 10'. Between) is characterized in that the wire 25 having a tension force is installed to protect the slope.

The construction method using the above-mentioned earth anchor is as follows.

  Constructing a plurality of perforation holes on the ground slope using an excavator to install an earth anchor to protect the slope;

Inserting a first anchor and a second anchor into the drilling hole and then pulling a wire on one side to install an earth anchor so that the blades of the first anchor and the second anchor are unfolded and fixed to the inner wall of the drilling hole;

Forming a grouting body by injecting mortar between the first anchor and the second anchor of the installed anchor;

Earth anchor construction method is made to have a tensile force by fixing a plurality of wires coupled to the connection member of the second anchor one side to the pressure plate located on the slope of the inlet hole.

The construction method of the earth anchor of this invention implemented in this way is as follows.

1st process: Ground drilling hole construction stage

In order to install the earth anchor to protect the slope, a perforation hole is formed. The perforation holes are drilled deep inside to excavate to hard ground or rock layers. Typically, the length of the slope reinforcement device using a wire tension force is about 15m to 30m, it may vary depending on the work site.

2nd process: Earth anchor installation in drilling hole

The earth anchor 1 is inserted into the drilling hole 30 with the first anchor 10 at the head of the drilling holes 30 formed in the first step.

At this time, one side of the second anchor 10 'of the earth anchor 1 introduced into the drilling hole and one surface of the connection member 24 correspond to a separate steel rod to push the earth anchor 1 into the hole.

After inserting the ground anchors 1 into the plurality of drilling holes 30 as described above, the first anchor 10 and the first anchor 10 and the first anchor 10 and the wire 25 connected to the connecting member 24 of the 10 (10 ') 2 Move the head 13 to one side by pulling the reinforcing bar 11 connected to the head 13 of the anchor 10 'so that the upper surface of the head 13 pushes the support protrusion 23 of the braid 20 upward. The first body 10 and the second anchor 10 ′ are fixed to the inner surface of the drilling hole 30 while the wing body 21 of the blade 20 is opened outward with respect to the hinge portion 18. .

3rd process: grouting construction stage

After the earth anchor is installed in the drilling hole in the second step, the mortar injection hose and the gas discharge hose are installed to be positioned between the first anchor and the second anchor.

The mortar injection hose and the gas removal hose for grouting are carried out in a conventional manner.

When the two hoses are installed between the first and second anchors of the drilling hole as described above, the mortar is injected into the mortar injection hose by the mortar injection equipment from the outside to fill the grout 40 between the first and second anchors. Thereby forming a fixed end.

At this time, the blades of the first anchor and the second anchor are outwardly grouted in a state of being caught in the inner wall of the drilling hole.

After the grouting 40 is completed, as shown in the figure, two installed hoses are removed and the grouting is cured to form a fixed end.

Step 4: wire tensioning work

After forming the fixed end by grouting between the first and second anchors as described above, the wire 11 exposed to the outside of the slope of the ground is put on the pressure plate 50 and pulled so that the wire in the drilling hole is tensioned. Next, the wire 25 is fixed to the pressure plate 50.

The wires provided between the second anchor one side connecting member 24 and the pressure plate 50 are provided with a plurality of steel wires 27 inside the sheath pipe 26 made of tubular bodies, and a grease 28 is filled in the sheath pipe on the outer circumferential surface of the steel wire. By forming a free end, even though the perforation hole is filled with soil, the wire maintains the tensile force without disappearing, thereby preventing the slope of the ground from sliding.

Hereinafter, the present invention will be described based on the accompanying drawings.

2 is a configuration diagram of an earth anchor composed of a first anchor, a second anchor, and a wire of the present invention, wherein a first anchor 10 and a second anchor 10 'are provided, and the first and second anchors are provided. Is composed of the same configuration to install the first anchor on one end of the reinforcing rod 11 and the second anchor on the other end of the reinforcing rod pull the reinforcing rods 11, the head 13 of both sides moves to one side of the upper The blade 20 pushes the support protrusions 23 and the wing body 21 of the blade is opened outwardly around the hinge portion 18 and fixed to the inner wall of the hole.

As described above, when the first anchor 10 and the second anchor 10 'are fixed to the drilling hole, the mortar is poured and grouted between the first and second anchors through a mortar injection hose in a conventional manner. .

As described above, the grouted first anchor and the second anchor are formed like a soil rail to support the wire to be pulled taut while simultaneously supporting the sliding upper load and having tensile strength.

A fixed end is formed between the grouted first anchor 10 and the second anchor 10 'as described above.

In addition, the wire 25 is tensioned between the connecting member 24 coupled with the reinforcing bar 11 protruding from the head 13 of the second anchor 10 'and the pressure plate 50 installed on the slope of the ground. Since it is fixed in the state, the wire 25 is pulled from the slope to form the binding.

Earth anchor (1) of the present invention installed as described above is formed as a fixed end between the first anchor and the second anchor, the tension between the connecting member and the pressure plate of the second anchor one side is tensioned by a wire added tension.

In addition, a plurality of wires are installed to have a tensile force between the connecting member 24 and the pressure plate 50 of the present invention.

 Figure 3 is an exemplary view showing a folded state of the ground anchor according to the present invention, the blade 20 formed on the upper casing body 15 of the first anchor 10 or the second anchor 10 'is folded state It is shown.

First, the drilling hole 30 is formed on a slope to which the ground anchor 1 is to be installed using a conventional drilling machine (excavator), and when the drilling hole 30 is formed on the slope of the ground, one side of the rebar rod 11 is formed. The casing body 15 of the first anchor 10 coupled to the end (tip) is inserted into the drilling hole 30.

At this time, the blade 20 formed on the upper casing body 15 is inserted in a folded state as shown in FIG.

 In addition, one side end portion of the reinforcing rod 11 made of double reinforcing bars or the same steel bar penetrates the center of the first anchor 10 head 13 to be joined by welding or bolting, and the head 13 has a casing body ( It is located in the space part 16 in 15).

The lower diameter of the casing body 15 space 16 is the head 13. It is formed so that the entrance and exit, the upper end is formed with a locking step 17 so that only one side connection portion of the reinforcing rod 11 can be fitted.

Accordingly, the connection between the tip of the rebar rod 11 and the head 13 inserts the one end portion of the reinforcing rod 11 into the space portion 16 through the casing body 15 and the upper locking jaw 17 side. The head 13 is inserted through the bottom of the space 16 and then coupled to the connecting portion 12.

In addition, the other end of the reinforcing rod 11 is coupled to the second anchor 10 'in the same coupling manner as the first anchor 10.

At this time, the rear end of the reinforcing rod 11 connected to the head 13 of the second anchor is welded and fixed so that the end protrudes through the center of the head 13, and then screwing the connecting member 24 to the end of the reinforcing rod 11. Fix by welding or welding.

In addition, the connecting portion 12, which is the front end of the reinforcing rod 11 connected to the first anchor, is formed to be exposed longer even after connecting with the head 13, and after coupling with the head, the end of the connecting portion 12 is casing body ( 15) to be exposed to one side.

Forming a longer end portion 12 of the reinforcing rod 11 so as to be exposed outside the casing body 15 facilitates the coupling and when the casing body 15 is inserted into the perforated hole, stones or soil flow into the space portion. By preventing the reinforcing bar in the future to pull the nail-shaped reinforcing bar between the locking projection 17 and the upper surface of the head 13 of the casing body 15, the stone (stone) and the like does not prevent the head rise.

In addition, a plurality of blades 20 are installed at the hinge portion 18 at the outer circumference of the upper part of the locking jaw 17 of the casing body 15 to be folded, and the number of blades is installed between two to four. Can be.

 The head 13 is moved up and down in the space 16 of the casing body 15, the inclined surface 14 is formed on the outer peripheral surface of the upper surface of the head 13, the inclined surface 14 is the lower blade 20 It is formed to correspond to the bottom angle of the support projection (23).

4 is an exemplary view showing an unfolded state of the earth anchor blade according to the present invention, the casing of the first anchor 10 or the second anchor 10 'of the earth anchor 1 as shown in FIG. When the blade 20 of the body 15 is folded, it is pushed as deep as possible into the drilling hole 30 and inserted into the rock drilling hole. Then, when the wire is pulled from the outside of the slope so that the reinforcing rod 11 is pulled, it is coupled to both ends of the reinforcing rod. Since the head 13 is pulled and moved to the wire side in the space 16, the top surface of the head pushes up the bottom surface of the blade 20 and the support protrusion 23, so that the blade 20 is directed outwardly about the hinge portion 18. It is spread out and supported by the inner wall of the drilled hole.

At this time, when the wire is pulled from the outside of the hole, the blade is firmly fixed by being supported by the inner wall of the hole 30 in the unfolded state as shown in FIG.

FIG. 5 is an exemplary view of a grouting state between the first and second anchors of the earth anchor according to the present invention. FIG. 5 shows the earth anchor 1 of the present invention as a first anchor 10 and a second anchor 10 '. And grout is formed by injecting mortar between the first anchor 10 and the second anchor 10 '.

In addition, even when the wire is pulled from one side, since the first and second anchors 10 and 10 'are supported by the inner wall of the drilled hole, the tensioned wire is not relaxed.

FIG. 6 is an exemplary view illustrating a state in which grouting is not installed between the first and second anchors of the earth anchor according to the present invention, wherein the ground of the slope reinforcement earth anchor 1 installation site of the present invention is a rock layer. In this case, the grouting is omitted between the first anchor 10 and the second anchor 10 'installed in the drilling hole because only the sliding of the slope of the ground is prevented.

5 and 6, the present invention can selectively grout between the first and second anchors according to the ground layer of the drilled hole.

That is, it is preferable to grout rather than not, but when the ground layer where the first and second anchors are located is a rock, even if the wire of one side is pulled, the first anchor and the second anchor are not drawn out, so the wire is taut. It is maintained and has a tensile force, so grouting can be avoided.

In the present invention is to form a fixed end for supporting the wire and to be protected by binding the slope by the wire tension force.

Fig. 7 is a schematic view of the cut wire of the present invention, in which the wire used in the present invention forms a sheathing tube 26 on the outer surface, and a plurality of steel wires 27 are disposed therein, and a grease 28 in the sheathing of the steel wire outer peripheral surface. Even if the hole is filled with soil so that the tension of the wire is maintained without falling.

In the present invention as described above, the fixed end by using a wire-like tension member to form a ground reinforcement member anchor anchor construction ease of work, strengthen the binding tension for vertical and slope sliding, ease of components, work time There is a feature to save.

1 is an exemplary view showing a conventional wedge anchor.

Figure 2 is a configuration diagram of the earth anchor consisting of the first anchor, the second anchor and the wire of the present invention.

Figure 3 is an exemplary view showing a folded state of the ground anchor according to the invention.

Figure 4 is an exemplary view showing an unfolded state of the blade of the earth anchor according to the invention.

Figure 5 is an exemplary embodiment of the grouting state between the first anchor and the second anchor of the earth anchor according to the present invention.

Figure 6 is an exemplary embodiment of a state without grouting between the first anchor and the second anchor of the earth anchor according to the present invention.

Figure 7 is a wire cut surface configuration of the present invention.

<Description of the symbols for the main parts of the drawings>

10,10 ': First and second anchors 11: Reinforcing bar

12: Connection 13: Head

14: inclined surface 15: casing body

16: Space part 17: Hanging jaw

18: hinge part 20: blade

21: wing body 22: reinforcement

23: support protrusion 24: connecting member

25: wire 26: coating tube

27: steel wire 28: Greece

30: hole 40: grouting

50: Acupressure plate 1: Earth anchor

Claims (4)

In the earth anchor used as the slope preventing reinforcement member, A head 13 connected to one end of the reinforcing bar 11 made of a deformed steel bar by welding or bolting; A casing body (15) having a space (16) formed to accommodate the head (13) and having a plurality of hinge portions (18) at both ends; A blade 20 installed to be extended outwardly to the hinge portion 18 formed on the casing body 15; The support protrusion 23 is formed inside the lower end of the blade 20, but the bottom inclination angle of the support protrusion constitutes the first anchor 10 formed to correspond to the top inclined surface 14 of the head 13. A second anchor 10 'connected to the other end of the reinforcing rod 11 so as to pass through the head 13; A connection member 24 fixed to an end of a reinforcing rod protruding from the head 13 of the second anchor 10 '; Earth anchor for slope reinforcement, characterized in that the wire 25 is applied between the connecting member 24 and the pressure plate 50 is a tensile force is applied. The method of claim 1, The first anchor and the second anchor is a reinforcing earth anchor, characterized in that the blade 20 is formed of a reinforcing piece 22 having a wing body 21 and a hinge portion 18 having a support projection at the lower end. The method of claim 1, The earth anchor forms a fixed end between the first anchor 10 and the second anchor 10 ', and has a tensile force between the connecting member 24 and the pressure plate 50 on one side of the second anchor 10'. Earth anchor for slope reinforcement characterized in that the wire 25 is installed to reinforce the slope. In earth anchor installation construction method to protect slope of the ground,   Constructing a plurality of perforation holes on the ground slope using an excavator to install an earth anchor to protect the slope; Inserting a first anchor and a second anchor into the drilling hole and then pulling a wire on one side to install an earth anchor so that the blades of the first anchor and the second anchor are unfolded and fixed to the inner wall of the drilling hole; Grouting by injecting mortar between a first anchor and a second anchor of the installed anchor; Earth anchor construction method for reinforcing slopes, characterized in that the step of adding a tensile force to the wire while being fixed to the pressure plate located on the slope of the inlet hole of the plurality of wires coupled to the connection member on one side of the second anchor.

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