KR20090044716A - Apparatus and method for stiffening slope - Google Patents

Abstract

Slope reinforcing device of the first embodiment proposed is a device for reinforcing the slope by inserting a reinforcing material in the slope, which is inserted into the drilling hole of the slope, the anchor body having at least one mounting wing on the outer peripheral surface; A mounting wedge for pressurizing the mounting blade to be unfolded by being positioned in the anchor body as the anchor body moves; A reinforcing member located inside the drilling hole; An end portion of which is located outside the slope and a portion of which is connected to the anchor body; A grouting hose for grouting the inside of the drill hole; And a support member mounted at an inlet of the drilling hole and having a hole through which the reinforcement and a portion of the wire can pass.

Slope reinforcement device, wire, anchor body

Description

Slope reinforcement device and its method {Apparatus and method for stiffening slope}

This embodiment discloses a device and a method for reinforcing inclined slopes or crest temporary installations.

In general, the soil nailing method is widely used as a slope reinforcement method to prevent the collapse of artificial slope caused by natural slopes or excavation, such as soft ground, and to give slope safety.

In applying the soil nailing method to slopes or tunnels generated by natural slopes or ground excavation, a nail insertion hole is drilled into the slope during ground excavation work or after completion of excavation work. Design and manufacture integrated reinforcing bar and cement milk injection hole grouting pipe processed to the length corresponding to the perforated depth and transport it to the site to insert the rebar or cement milk injection hole grouting pipe into the nail insertion hole Cement milk is injected, cured and cured inside the nail insertion hole to reinforce the slope.

In such a nail-nailing method, the nail insertion hole drilled on the slope to purchase a deformed steel reinforcement or to inject cement milk should be drilled to a depth of about 6 to 18m depending on the height of the slope, and to inject cement milk at high pressure. To do this, a packer material is needed to seal the perforation holes.

However, such a nail is a passive reinforcement method for exerting reinforcement after the slope starts to behave, and the initial displacement of the slope inevitably occurs.

In addition, the general nail is using only one reinforcement, the reinforcement is lowered by the earth anchor method in which a plurality of tension members enter.

On the other hand, the anchoring method is to forcibly connect the part of the ground that is in contact with the ground of civil engineering or construction with a stable settlement of a certain depth of the ground, and introduce a high tension to the force. Due to such tension force, it is possible to secure the ground by preventing retaining wall reinforcement, slope stability, reinforcement of retaining wall, reinforcement of buoyancy due to groundwater or fall of the seawall.

Looking at the implementation process of such an anchoring method, using a punching machine to drill the grouting hole in the position where you want to install the anchor, inserting the grout injection hose and the tension member equipped with the anchor. Then, when the grout is injected into the grouting hole and the injected grout is cured, the soft ground is reinforced by pulling the tension member to tension the grout and the ground.

By the way, in this anchor method, since the tension member is buried in the ground 20 ~ 30m, the construction cost according to the consumption of the tension member increases. In addition, the excavation work or drilling work for drilling the grouting hole according to the investment of the long tension member takes a long time, there is a problem that the cost due to the delay of the construction period increases.

Devices are needed to reinforce slopes and soft ground more economically and firmly.

Slope reinforcing device of the first embodiment proposed is a device for reinforcing the slope by inserting a reinforcing material in the slope, which is inserted into the drilling hole of the slope, the anchor body having at least one mounting wing on the outer peripheral surface; Mounting wedge to be positioned in the anchor body in accordance with the movement of the anchor body, so that the mounting blades unfold; A reinforcing member located inside the drilling hole; An end portion of which is located outside the slope and a portion of which is connected to the anchor body; A grouting hose for grouting the inside of the drill hole; And a support member mounted at an inlet of the drilling hole and having a hole through which the reinforcement and a portion of the wire can pass.

Slope reinforcing device of the second embodiment of the present invention is a device for reinforcing the slope by inserting a reinforcing material in the slope, which is inserted into the drilling hole of the slope, the anchor body having at least one mounting blade on the outer peripheral surface; A mounting wedge which is inserted into the anchor body and presses the mounting blade to unfold; A reinforcing material inserted into the drilling hole; An end portion outside the slope and a portion of the wire connected to the mounting wedge; And a grouting hose for grouting the inside of the drilling hole, wherein the wire is connected to the mounting wedge by passing through a hole formed in the anchor body.

According to the proposed embodiment, the pre-stress is applied before the slope moves, thereby reducing the initial displacement.

In addition, by using the reinforcing steel or steel plate and the tension wire as a reinforcing material, there is an advantage that the reinforcement strength is increased compared to the general soil nailing method.

In addition, the introduction of acupressure anchor body can reduce the depth of drilling compared to the friction anchor body.

Hereinafter, this embodiment will be described in detail with reference to the accompanying drawings.

In the following description, the word 'comprising' does not exclude the presence of elements other than those listed.

1 is a cross-sectional view showing the configuration of a slope reinforcing device according to a first embodiment of the present invention, Figures 2 to 4 are views showing the supporting members of the slope reinforcing device according to the first embodiment, Figure 5 7 to 7 are views showing the anchor body and the mounting wedge of the slope device according to the first embodiment.

First, referring to FIG. 1, the slope reinforcement device 100 according to the first embodiment of the present invention is inserted along a hole drilled into the slope S and includes an anchor body 110 having a mounting wing, and the anchor body 110. ) The mounting wedge 180 to press the anchor body 110 so that the mounting blade provided in the) and the anchor body 110 for positive resistance to the slope behavior toward the mounting wedge 180. Wire 160 extending along the drilling hole to move to the reinforcement, and includes a reinforcing bar or pipe to passive resistance to the slope behavior in the drilling hole.

On the other hand, the anchor body 110, the mounting wedge 180, the reinforcing material 150 and the wire 160 is inserted into the drilled hole in an assembled state.

In addition, the slope reinforcing device 100 is a first support member 120 and a second position on the first support member 120 in the periphery of the perforation hole in order to pressure grout the cement milk in the perforation hole. And a support member 140 and a cap 190 mounted on the second support member 140.

In detail, referring to FIGS. 2 to 4, the first support member 120 has a shape in which the radius thereof gradually decreases toward the depth direction of the drilling hole. In addition, an upper surface of the first support member 120 is formed in a rectangular shape, and a hole 121 for penetrating an end portion of the wire 160 and a reinforcement member 150 inserted into the drilling hole is formed on an outer circumferential surface of the rectangular shape. Is formed.

In addition, in the upper outer surface of the first support member 120, together with the hole 121, an air hole 124 is formed to allow air inside the drilling hole to escape during pressure grouting. Grouting holes 125 for injecting cement milk are further formed.

In addition, the second support member 140 is mounted on the first support member 120 to fix the end thereof after pulling the wire 160 inserted into the drilling hole.

The second support member 140 has a shape larger than that of the hole 121 of the first support member 120, and the reinforcement member 150 inserted into the drilling hole in the second support member 140. A first hole 141 for penetrating the end of the wire and two second holes 1142 for penetrating both ends of the wire 160 are formed.

In addition, on the second support member 140 to prevent cement milk from coming out through the hole formed in the first support member 120 and the hole formed in the second support member 140 during pressure grouting. Cap 190 is mounted.

In order to allow the cap 190 to be easily mounted on the second support member 140, a jaw is formed on the upper portion of the second support member 140 to allow both ends of the cap 190 to be seated. You can put it.

In addition, the slope reinforcing device 100 includes a hose connecting portion 130 for grouting, the grouting material (for example, cement, etc.) injected through the hose connecting portion 130 is provided at the end of the drilling hole The grouting hose 170 is further provided in the drilling hole so as to be filled from the sieve 110.

Here, the grouting hose 170 is extended along the longitudinal direction of the wire 160 and the reinforcement 150, the grouting material injected through the hose connecting portion 130 can be filled from the anchor body 110 side It plays the role of making it work.

However, in the drawings, in the state where the grouting hose 170 is connected with the hose connecting portion 130, the hose connecting portion 130 is external through the grouting hole 125 of the first support member 120 Although shown as being connected to, the grouting hose 170 and the hose connecting portion 130 is integrally formed so that a portion of the grouting hose penetrates the grouting hole 125 of the first support member 120. Can be.

Meanwhile, the process of installing the slope reinforcing device of the present embodiment will be described.

First, perforations are performed on slopes such as slopes to form perforations in the slopes.

In addition, the anchor body 110, the mounting wedge 180, the reinforcing material 150, the wire 160, and the grouting hose 170 may be assembled in advance, and the anchor body 110 may be inserted into the drilling hole. ), Mounting wedge 180, reinforcement 150, wire 160 and grouting hose 170 is inserted in the assembled state.

Next, the first support member 120 is mounted at the inlet of the drilling hole, and the ends of the reinforcement 150 and the wire 160 are formed through the holes 121 of the first support member 120. Allow exposure.

In addition, a second support member 140 is mounted on the first support member 120, and the reinforcing material 150 passes through the first hole 141 of the second support member, and the wire 160 is provided. Both ends of the second through) through the second holes 142 of the second support member.

Then, both ends of the wire 160 are strongly pulled and fixed on the second support member 140 so that the inside of the drilling hole is packed. For reference, the coupling between the first support member and the second support member, and the fixing of the both ends of the wire can be carried out by the techniques of the known description will be omitted.

Next, the cap 190 is mounted on the second support member 140 to seal the holes formed in the second support member 140. In addition, a pressure grouting process for injecting cement milk through the grouting hole 125 formed in the first support member 120 is performed.

After the pressure grouting process is performed, the air hole 124 of the first support member 120 is sealed.

Meanwhile, at least one reinforcing member such as reinforcing bars or wires is provided in the wire 160, and a plastic coating is wrapped to protect the reinforcing member such as reinforcing bars or wires. In addition, grease is filled in the wire 160 to prevent corrosion of the reinforcing member.

In addition, the anchor body 110 is connected to the wire 160, the mounting blade 112 is formed on the outer peripheral surface of the anchor body 110 when the wire 160 is pulled out of the drilling hole It is rotated and unfolded.

Hereinafter, referring to FIGS. 5 to 7, the configuration of the anchor body 110 and the mounting wedge 180 will be described in more detail.

5, the shape of the anchor body 110 and the mounting wedge 180 is illustrated. The anchor body 110 includes a head 113 and a mounting blade 112 to which the wire 160 is connected. It consists of a body portion formed.

In addition, the mounting wedge 180 is also composed of a circular body 181, and a head 182 formed on the body 181 having a funnel shape, the head 182 of the mounting wedge 180 is When the anchor body 110 moves, the radius of the anchor body 110 becomes smaller toward the upper side so that the anchor body 110 can be naturally inserted into the body portion of the anchor body 110.

On the other hand, the upper surface and the lower surface of the anchor body 110 is shown in Figure 6, the head portion 113 of the anchor body 110 a plurality of through holes for the wire 160 to pass through ( 111 is formed, and a plurality of mounting wings 112 that can be rotated by a predetermined hinge is provided on the outer peripheral surface.

However, the mounting blade 112 may be configured to be rotated by a predetermined hinge, but it is also possible to configure the mounting blade 112 to be bent at the outer peripheral surface of the anchor body (110). Modifications to the configuration for spreading the mounting blade 112 may be made in various ways.

FIG. 7 is a diagram illustrating a cross-sectional view taken along the line A-A 'of FIG. 6, wherein the inner circumferential surface of the mounting blade 112 of the anchor body 110 includes a plurality of grooves 114 such that the outer circumferential surface of the mounting wedge 180 may be caught. ) Is formed.

When pulling the wire 160 to the outside of the slope (S), the anchor body 110 is also drawn to move to the mounting wedge 180 side, the mounting wedge 180 of the anchor body 110 It is inserted into the body.

As the mounting wedge 180 is inserted into the anchor body 110, the mounting blade 112 formed on the outer surface of the anchor body 110 is opened by the mounting wedge 180.

In addition, the unfolded mounting blade 112 may touch the inner wall of the drilling hole or be inserted into the inner hole of the drilling hole, so that the slope reinforcing device of the present embodiment may be more firmly fixed in the drilling hole.

8 is a cross-sectional view showing the configuration of the slope reinforcing device according to a second embodiment of the present invention, Figures 9 to 11 shows the anchor body and the mounting wedge constituting the slope reinforcing device according to the second embodiment Drawing.

The proposed second embodiment has similar configurations to those of the first embodiment, except that the fixing method of the slope reinforcing device 200 is different by the anchor body 210 and the mounting wedge 280.

The slope reinforcing device 200 of the second embodiment is also provided with a reinforcing member 250 inserted into the drilling hole, and the mounting wing 212 formed in the anchor body 210 by being inserted into the drilling hole together with the reinforcing member 250. It includes a mounting wedge 280 to unfold.

In addition, the first support member includes a grouting hose 270 for inserting cement, etc. into the drilling hole, and a hose connecting portion 230 for connecting the grouting hose 270 to be mounted in the drilling hole of the slope (S). 220, a second support member 240 formed on the first support member 220, and a cap 290 formed on the second support member 240.

The configuration of the anchor body 210 and the mounting wedge 280 in the slope reinforcing device according to the second embodiment will be described in more detail.

After inserting the mounting wedge 280, the anchor body 210, the reinforcing member 250, the wire 260, and the grouting hose 270 into the drilling hole, the first supporting member 240 is inserted into the drilling hole inlet. Mount it.

Then, when the wire 260 is pulled out of the hole, the mounting wedge 280 is moved toward the anchor body 210 in accordance with the movement of the wire 260.

When the wire 260 is pulled, the mounting wedge 280 to which the wire 260 is connected is also moved, and the mounting wedge 280 is moved to the anchor body 210 side.

In detail, the wire 260 penetrates through the hole 211 formed in the head portion 213 of the anchor body 210, and then is connected to the mounting wedge 280, and the wire 260 is held by the wire 260. When pulled, the mounting wedge 280 is connected to the wire 260 is moved.

The mounting wedge 280 is formed in the same shape as in the first embodiment, and comprises a circular body 281 and a head 282 formed in a funnel shape on the body 281.

In addition, the anchor body 210 is provided with a mounting blade 212 on its outer circumferential surface to be expanded as the mounting wedge 280 is inserted into the anchor body 210.

A plurality of grooves 214 of a predetermined size are formed on an inner circumferential surface of the mounting blade 212 so that a part of the outer circumferential surface of the mounting wedge 280 is caught, and the mounting wedge 280 moves toward the mounting blade 212. As part of the outer peripheral surface of the mounting wedge 280 is caught by the groove 214 of the inner peripheral surface of the mounting blade 214.

As a result, a hole for penetrating the wire may be formed in the anchor body 210, but the wire 260 is finally connected to the mounting wedge 280, thereby providing the mounting wedge 280. The mounting wedge 280 is actively inserted into the anchor body 210 by moving.

Therefore, the wires of the proposed first and second embodiments are configured such that both ends thereof are exposed to the outside of the slope S, and the center of the wire is connected to the anchor body or the mounting wedge. In addition, since the outer circumferential surface of the wire is made of a covering or the like, the wire can move a predetermined distance even if cement is placed in the drilling hole. Therefore, the mounting blades provided in the anchor body are opened by pulling the wires, so that the gripping of the inner wall of the drilled hole by the mounting blades is made.

1 is a cross-sectional view showing the configuration of a slope reinforcing device according to a first embodiment of the present invention.

2 to 4 show the supporting members of the slope reinforcing device according to the first embodiment.

5 to 7 is a view showing the anchor body and the mounting wedge of the slope device according to the first embodiment.

8 is a cross-sectional view showing the configuration of a slope reinforcing device according to a second embodiment of the present invention.

9 to 11 are views showing the anchor body and the mounting wedge constituting the slope reinforcing device according to the second embodiment.

Claims (14)

An apparatus for reinforcing the slope by inserting a reinforcement in the slope, An anchor body inserted into the perforation hole of the slope and having at least one mounting wing on an outer circumferential surface thereof; Mounting wedge for pressing the mounting blades to be unfolded by being located in the anchor body in accordance with the movement of the anchor body; A reinforcing member located inside the drilling hole; An end portion of which is located outside the slope and a portion of which is connected to the anchor body; A grouting hose for grouting the inside of the drill hole; And And a support member mounted at an inlet of the drilling hole and having a hole through which the reinforcement and a portion of the wire can pass. The method of claim 1, The support member includes a first support member mounted at the inlet of the drilling hole, and a second support member mounted on the first support member. Slope reinforcing device, characterized in that the first support member and the second support member is formed with a hole for the wire and the reinforcing material penetrates. The method of claim 2, Slope reinforcing device, characterized in that the second support member is formed with a first hole through which the reinforcing material penetrates, and two second holes through both ends of the wire. The method of claim 2, Slope reinforcing device, characterized in that the first support member is further formed with a hole for the grouting hose penetrates. The method of claim 2, Further comprising a hose connecting portion connected to the end of the grouting hose, Slope reinforcing device, characterized in that the first support member is further formed with a hole for passing through the hose connecting portion. The method of claim 2, Slope reinforcement device, characterized in that the first support member is further formed with an air hole for the air in the drilling hole to escape. The method of claim 2, Slope reinforcing device, characterized in that the cap is further mounted on the second support member for closing the holes formed in the second support member. The method of claim 1, Slope reinforcing device, characterized in that the wire is made of at least one reinforcing member and the covering surrounding the reinforcing member. The method of claim 1, The anchor body is provided with a plurality of holes for the wire to pass through, Slope reinforcing device, characterized in that the both ends of the wire is located outside the drilling hole. The method of claim 9, Slope reinforcing device, characterized in that a plurality of grooves are formed on the inner peripheral surface of the mounting wing of the anchor body. An apparatus for reinforcing the slope by inserting a reinforcement in the slope, An anchor body inserted into the perforation hole of the slope and having at least one mounting wing on an outer circumferential surface thereof; A mounting wedge which is inserted into the anchor body and presses the mounting blade to unfold; A reinforcing material inserted into the drilling hole; An end portion outside the slope and a portion of the wire connected to the mounting wedge; And And a grouting hose for grouting the inside of the drilling hole. Slope reinforcement device, characterized in that the wire is connected to the mounting wedge through the hole formed in the anchor body. The method according to claim 1 or 11, wherein The anchor body is a slope reinforcement device, characterized in that the mounting portion is formed with a body portion and the head portion formed with a hole for the wire to pass through the body portion. The method according to claim 1 or 11, wherein The mounting wedge is a slope reinforcement device, characterized in that the circular body, and the head from the body toward the anchor body, the radius of the smaller becomes smaller. Forming a hole for a predetermined depth with respect to the slope; Assembling an anchor body provided with mounting blades on an outer circumferential surface thereof, a mounting wedge for positioning the mounting blades by rotating into the anchor body, a reinforcing material, a grouting hose, and a wire; Inserting the anchor body, the mounting wedge, the reinforcing material, the grouting hose and the wire assembled into the drilling hole; Mounting a first support member having a hole for penetrating the reinforcing material and a wire at the entrance of the drilling hole; Mounting a second supporting member on the first supporting member, the second supporting member having a plurality of holes through which the reinforcing material and the wire pass; Tensioning the wire by pulling the wire out of the hole; Fixing the wire to the second support member; Mounting a cap on the second support member; And And injecting cement milk into the grouting hose to perform a pressure grouting process.

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