KR20090098476A - Soil nailing method and the ground reinforcement structure used soil nailing - Google Patents

Abstract

A reinforcement method and a soil nailing reinforcement structure are provided, which maximize land utilization and reduces construction cost and period. A reinforcement method using soil nailing comprises: a nailing step for installing a nail(200) in which a protrusion of cone-shape is formed in the ground by striking the nail; a wall installation step for installing the wall(320) connected to nail by the connecting member(340); and a step of banking soil between the wall and ground. The soil nailing reinforcement structure comprises: the ground; a nail which is installed at the ground and in which a protrusion is formed; a wall arranged in the front of the nail and ground; a connecting member connecting the wall and nail; and soil arranged between the wall and ground.

Description

Soil nailing method and the ground reinforcement structure used soil nailing}

The present invention relates to a reinforcement method and a nail nail reinforcement structure using a straight nail, in particular, the wall is connected to the nail by a nailing step and a connecting member to install a nail formed with a conical projection hitting the ground; Including the wall installation step of installing the wall and the land filling step between the wall and the ground, can maximize the use of land and minimize the amount of cut and fill, greatly reduce the air and construction costs, use the minimum paper and stability It is related to the reinforcing method and the soil nailing reinforcement structure using a straight nail that is high, the natural damage is minimized, the ground disturbance is minimized, the pull resistance is maximized.

Conventional soil nailing method has been presented in the Korean Registered Application No. 20-0222445.

In general, the horizontal soil nailing method currently used in retaining walls and earth structures in civil engineering is an in situ ground reinforcement method for slope reinforcement and excavation surface, as shown in FIG. 8, without prestressing the nail 30. Overall shear strength of the original ground 10 by inserting the front plate 40 with shotcrete after inserting it into a small nail hole 50 formed in a horizontal direction with respect to the excavation surface 20 of the ground 10 at relatively tight intervals. It is a method of suppressing the relaxation of the ground (10) expected during the excavation and after excavation by increasing the and suppressing the displacement.

That is, a plurality of small nail holes 50 are drilled slightly in the horizontal direction on the sidewall of the excavating surface 20, and the cement grout body (not shown) is inserted while inserting the nail 30 made of a deformed steel rebar therein. It is construction.

Here, reference numeral 60 shown in FIG. 8 represents a drain.

The horizontal nailing method is a method in which the construction process such as excavation construction, drilling 50 for nailing, nailing construction, grouting treatment, nailing tofu treatment, shot short rift, etc. is repeatedly performed in the excavation stage.

The conventional horizontal soil nailing method is not only high in stability but also difficult to efficiently manage equipment and manpower by excavation time, which causes high cost.

In addition, in order to reinforce the ground with a slope inclined conventionally, an inverted T-type retaining wall method, conventional reinforced earthwork method, slope method, lower nail upper slope method is shown as shown in Figs.

The slope method and the lower nail upper slope method have a problem that the inclined slope is formed to reduce the land area that can be used. In addition, the lower nail upper slope method is a surface treatment problem occurs.

In the slope reinforcement method, ground stress becomes unstable due to cutting, ground is disturbed, and problems such as natural damage, dust, noise, and soil treatment due to ground excavation occur. In addition, construction, quality, maintenance is difficult due to poor working conditions.

Korean Patent Publication No. 2005-0046043 shows a pressure nailing method. This pressure nailing method is punched to 105mm in diameter, and then a nail having a diameter of 22 to 32mm is inserted, a packer is installed, and pressure grouting is performed to install a pressure plate and a nut. The nail used in the pressure nailing method is provided with a yield strength of 3000kgf / cm ² ~ 4000kgf / cm ² general rebar. However, such a nailing method has a problem that the ground is disturbed due to the drilling, and the construction period is increased due to the addition of a construction type such as packer installation and pressure grouting, and the construction cost is high.

The prior art of Korea Patent Publication No. 2005-0030095 shows a gravity nailing method. This gravity nailing method is drilled to a diameter of 105mm, and then inserts a nail having a diameter of 22 to 32mm, gravity grouting 3 to 6 times and installs a pressure plate and a nut. The nail used in the gravity nailing method is provided with 3000kgf / cm ² ~ 4000kgf / cm ² general rebar. However, such a gravity nailing method has a problem that quality is difficult due to ground disturbance due to perforation and uncertainty of grouting.

On the other hand, the slope reinforcement method using the general geogrid reinforcement soil requires earthwork over geogrid length, but there is no nail or anchor body and connecting system. The PRN-WALL method, which treats the entire surface with blocks in the existing nailing method, connects the nail and the entire surface with rebar and nuts, but the connection system is uncertain and quality control is difficult.

The present invention has been made in order to solve the above-described problem, the wall installation step and the wall installation step of installing the wall connected to the nail by the nailing step and the connecting member is installed by hitting the ground nail formed with a conical projection Including landfill stages that fill in and between the ground, land and land use can be maximized, and the amount of cut and fill can be minimized, greatly reducing air and construction costs, using minimal paper, high stability, and minimizing natural damage, The purpose of the present invention is to provide a reinforcement method and a nail nail reinforcement structure using a straight nail that minimizes disturbance and maximizes drawing resistance.

Reinforcement method using a straight nail of the present invention for achieving the above object is a wall installation for installing the wall connected to the nail by the nailing step and the connecting member to install the nail formed by conical projections on the ground hitting the ground It characterized in that it comprises a step and the fill step of filling the wall and the ground.

According to this configuration, it is possible to make the most of land use and to minimize the cut and fill amount, greatly reducing the air and construction cost, using the minimum paper, high stability, minimizing natural damage, minimizing ground disturbance, and drawing resistance. There is an advantage that is maximized.

Before the nailing step, the cutting step of cutting the slope of the ground further includes, it is possible to minimize the amount of cut, and to maximize the land area.

In the nailing step, the nail is drilled to a diameter smaller than the diameter of the nail and then hit the nail on the ground, so that the nail can be more easily installed.

After the wall installation step, a backfill step of forming a backfill ground between the wall and the ground, the ground can be more effectively reinforced.

Soil nailing reinforcement structure of the present invention for achieving the above object, the ground, the nail is installed on the ground and the wall and the wall disposed in front of the nail and the connecting member for connecting the wall and the nail and the It comprises a fill disposed between the wall and the ground, the nail is characterized in that the conical projection is formed.

According to the reinforcement method and the soil nailing reinforcement structure using the straight nail of the present invention as described above, there are the following effects.

Including a nailing step of striking the nail formed with a conical protrusion on the ground and a wall installation step of installing a wall connected to the nail by a connecting member and a filling step of filling the wall and the ground, By making the most of land use and minimizing the amount of cut and fill, it can greatly reduce the air and construction cost, use the minimum amount of paper, high stability, minimize natural damage, minimize ground disturbance, and maximize the pull resistance.

Before the nailing step, the cutting step of cutting the slope of the ground further includes, it is possible to minimize the amount of cut, and to maximize the land area.

In the nailing step, the nail is drilled to a diameter smaller than the diameter of the nail and then hit the nail on the ground, so that the nail can be more easily installed.

After the wall installation step, a backfill step of forming a backfill ground between the wall and the ground, the ground can be more effectively reinforced.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

1 is a schematic view of the ground and FIG. 2 is a schematic diagram of a cutting step and a nailing step using a straight nail according to a preferred embodiment of the present invention, and FIG. 3 is a reinforcement using a straight nail according to a preferred embodiment of the present invention. Method wall installation step schematic diagram, Figure 4 is a schematic view of the reinforcement method wall installation step and backfill step using a straight nail according to a preferred embodiment of the present invention, Figure 5 is a nail nail reinforcement structure according to a preferred embodiment of the present invention 6 is a nail nail reinforcement structure according to another embodiment of the present invention, Figure 7 is a side view of the nail according to a preferred embodiment of the present invention.

As shown in Figures 1 to 7, the reinforcement method using a straight nail of the present embodiment, connected to the nailing step of hitting the nail (200) formed with a conical projection 220 on the ground (100) And a wall installation step of installing the wall 320 connected to the nail 200 by the member 340 and a filling step of filling the soil 400 between the wall 320 and the ground 100.

The ground 100 on which the inclined slope 110 is formed needs a stabilization method for reinforcement and prevention of ground loss.

First, a lower cut surface 110 of the ground 100 is vertically cut to form a cut surface 120 perpendicular to the ground below the ground 100.

Due to such cutting, the slope of the upper surface of the ground 100 can be gently formed, thereby maximizing the land use area.

Subsequently, the nail 200 is formed by hitting the cut surface 120 and the slope 110 with the conical protrusion 220 formed thereon.

As shown in FIG. 7, the nail 200 includes a plurality of protrusions 220 connected to each other by a reinforcing bar connection part 210 and a connection part 210. In addition, the nail 200 has a protrusion 220 disposed at the end thereof, and a connecting portion 210 is disposed at the front thereof. The connection portion 210 disposed between the protrusion 220 and the protrusion 220 is formed to have a shorter length than the protrusion 220, and the connection portion 210 disposed at the end thereof is formed to have the same length or longer length than the protrusion 220. do.

Protruding portion 220 is formed in a conical shape is formed so that the cross-sectional area is gradually smaller toward the far end. That is, the cross-sectional area of the protruding portion 220 becomes smaller toward the striking direction. The cross-sectional shape of the protrusion 220 may be a circle or a polygon. In addition, the connecting portion 210 is connected to approach the center of the protrusion 220.

Preferably, the nail 200 is formed of a yield strength of 3000kgf / cm ² ~ 5500kgf / cm ² high strength material. In addition, the diameter of the nail 200 is formed to 25mm or less.

When hitting the nail 200, it is possible to press the nail 200 using a blower using a hydraulic pressure. The nail 200 is horizontally disposed to be perpendicular to the cut surface 120, and is provided with a plurality of nails 200 to be spaced apart from each other on the top and the bottom thereof.

Unlike the above, the nailing step, when hitting the nail 200 on a solid soil or rock, the perforated cut surface 120 and the slope 110 with a diameter smaller than the diameter of the nail 200 After that, the nail 200 may hit the ground 100. In this case, when the drilling of the small diameter is added, the nail 200 may be more easily installed on the ground 100.

Such a nailing method has the advantage that the grouting and drilling process is omitted or reduced, thereby simplifying the nailing process, reducing costs, and shortening the construction period.

Subsequently, a wall 320 connected to the nail 200 is installed by the connection member 340.

In the wall installation step, the wall foundation 310 is installed on the ground in front of the cut surface 120, and then the block-type wall 320 is installed on the wall foundation 310, and the wall 320 and the nail are connected through the connection member 340. 200 is made by connecting each other. The wall foundation 310 and the wall 320 are disposed to be spaced apart from the cut surface 120.

The connection member 340 may be provided as a wire or reinforcing bar, and may be provided as different from that provided in Korean Patent No. 681309, and thus a detailed description thereof will be omitted.

After the wall installation step, the backfill ground 330 is formed between the wall 320 and the ground 100.

Due to the backfill ground 330, the ground 100 can be more effectively reinforced. Since the wall 320 and the backfill ground 330 are those disclosed in Korean Patent Application Publication No. 2007-0031295, a detailed description thereof will be omitted.

Fills 400 between the wall 320 and the backfill ground 330 and the ground 100. Therefore, the fill 400 is disposed above the ground.

The top surface 410 of the fill 400 and the top surface of the backfill ground 330 is formed to be continuous with the slope 110 of the ground (100).

Unlike the above, as shown in FIG. 6, the reinforcing method using the straight nail may be cut and backfilled. In this case, the nail 200 is vertically hit against the slope 110 and is disposed to be inclined, and the connecting member 340 is vertically connected to the wall 320 and disposed horizontally. In addition, the fill 400 is disposed between the wall 320 and the slope 110.

Therefore, the soil nailing reinforcement structure of the present invention, the ground 100, the nail 200 installed on the ground 100 and the wall (320) disposed in front of the ground 100 and the nail 200 And a connection member 340 for connecting the wall 320 and the nail 200 and a fill 400 disposed between the wall 320 and the ground 100, wherein the nail ( 200 is a conical protrusion 220 is formed.

According to this configuration, the soil nailing reinforcement structure has a gentle slope of the upper surface of the ground (100) to make the best use of land use, the lower part is cut and the upper part is embankment (400), thereby minimizing the amount of cut and fill, thereby greatly increasing air and construction costs. It can reduce, use minimal paper, high stability, minimize natural damage, minimize ground disturbance, and maximize pull-out resistance.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications or variations of the present invention without departing from the spirit and scope of the invention described in the claims below Can be carried out.

This reinforcement method using a straight nail can be applied for reinforcement of cut and cut soil slopes such as complex construction or road construction.

1 is a schematic view of the ground.

Figure 2 is a schematic diagram of the reinforcement method cut step and nailing step using a straight nail according to a preferred embodiment of the present invention.

Figure 3 is a schematic diagram of the wall installation step reinforcement method using a straight nail according to a preferred embodiment of the present invention.

Figure 4 is a schematic diagram of the reinforcing method wall installation step and backfill step using a straight nail according to a preferred embodiment of the present invention.

5 is a soil nail reinforcement structure according to a preferred embodiment of the present invention.

Figure 6 is a nail nail reinforcement structure according to another embodiment of the present invention.

Figure 7 is a side view nail in accordance with a preferred embodiment of the present invention.

8 is a conventional reinforcing structure.

9 is a conventional inverted-T retaining wall construction method.

10 is a conventional slope method structure.

Figure 11 is a conventional lower nail upper slope method structure.

** Description of symbols for the main parts of the drawing **

100: ground 110: slope

200: nail 210: connection

220: protrusion 310: wall foundation

320: wall 330: backfill

340: connecting member 400: fill

Claims (5)

Nailing step of installing by hitting the ground nail nail formed conical projections; A wall installation step of installing a wall connected to the nail by a connection member; Reinforcement method using a straight nail, characterized in that it comprises a filling step of filling the wall and the ground. The method of claim 1, Before the nailing step, Reinforcement method using a straight nail, characterized in that it further comprises a cutting step of cutting the slope of the ground. The method of claim 1, The nailing step, Reinforcing method using a straight nail, characterized in that for punching the nail to the ground after drilling to a diameter smaller than the diameter of the nail. The method according to claim 1, wherein After the wall installation step, Reinforcement method using a straight nail, characterized in that it comprises a back-filling step of forming a back-filled ground between the wall and the ground. Ground; A nail installed on the ground; A wall disposed in front of the ground and the nail; A connection member connecting the wall and the nail; It is made including the fill disposed between the wall and the ground, The nail nail reinforcing structure, characterized in that the conical projection is formed.

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