KR100935235B1 - Apparatus for slope reinforcement - Google Patents

Abstract

PURPOSE: A slope reinforcement device is provided to give strong anchor force, and reduce the manufacturing cost with a simple structure and work. CONSTITUTION: A slope reinforcement device inserts an anchor body(100) coupled with tension bodies(20) to a perforated hole(10). And the perforated hole is filled with grout and hardened. The anchor body comprises a lower case(110), a pressure unit(120), spike parts(130), and an upper case(140). The lower case is formed in a cylinder shape. Curved surface parts(112) are formed on the border of the lower case. The pressure unit accepted to the lower case pushes the spike parts by pressurizing. The spike parts are protruded to the outside resulting from rising of the pressure unit. The upper case coupled with the lower case is formed in a cylinder shape. And the upper case makes the pressure unit movable.

Description

Slope reinforcement device {Apparatus for slope reinforcement}

The present invention relates to a slope reinforcing device, and more particularly to a slope reinforcing device that can strengthen the ground by inserting and installing deeply inside the inclined surface.

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

Naturally and artificially formed slopes are exposed to risks 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 anchor anchor method are used to prevent cutting and collapse of the slope.

In the slope reinforcement method, the small nailing method first selects a slope, and then drills a plurality of reinforcing holes from the top of the slope to the bottom at regular intervals, and removes foreign substances such as soil chips inside the reinforcing hole by spraying compressed air or high pressure water. After that, the nail is inserted and the grout (grout, cement + water + sand) is filled in the reinforcing hole, and then the plate is installed at the entrance 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 reclamation or shotcrete of the slope is completed to complete the slope reinforcement.

However, the conventional small nailing method is simply inserted into the reinforcing hole in a hardened state by inserting and injecting a nail structure and grout into the reinforcing hole, and thus cannot reinforce the slope stably. After hardening to a degree, nail insertion and grouting work was performed in the lower reinforcing holes, so there was a problem in that the construction took a long time.

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 structure having shortened reinforcement construction period and strengthening tensile resistance has been devised.

The nailing method and the anchoring method applying the anchoring method is a "slope reinforcement used for the small nail structure and slope reinforcement used for the nailing method" of the Patent Publication No. 10-0448037 published in the Republic of Korea Patent Office registration (hereinafter referred to as' quoting invention 1 "Soil nail anchor for slope reinforcement work" (hereinafter referred to as "quotation citation 2") of Patent No. 10-0704774, and the "earth anchor structure" of Patent Application No. 10-2005-0023887 published in the Patent Publication No. "(Hereinafter referred to as 'quotation citation 3').

In the cited invention 1, a nail reinforcement for slope reinforcement is formed by inserting a nail into a perforation hole formed in the birthmark, and filling and grouting therein, and extending the anchor blade by screwing the tip of the nail to the end of the perforation hole. It is characterized in that the anchor body is coupled to the inner circumferential surface to provide a tensile resistance to the birthmark on the nail.

In the cited invention 2, the upper cap is screwed to the upper inner side of the body, the lower cap is coupled to the bottom, in the small nail anchor anchoring the inner wall of the body reinforcing hole by radially mounting several spikes in the center, Spikes having an acute blade are inserted into the inner wall of the reinforcing hole closely by the supply pressure of the grout, thereby stably fixing the body, and the tensile force applied to the body is propagated to the deep portion of the inner wall by the upper acute surface of the spike acute blade. When the tensile force of the small nail anchor body is applied to the upper end of the body by applying the hollow wall protection tube, the tensile force prevents the inner wall of the reinforcing hole from sinking to the front of the upper cap due to the propagation. It is characterized by filling grout inside.

The cited invention 3 is an earth anchor structure that is inserted into the drilling hole to extend the inner circumference to assist in the fixing of the tension member to the ground, the anchor cap is installed at the tip of the anchor body is coupled to the steel wire by the tapered cone, the anchor An expansion anchor is provided between the cap and the anchor body to radially protrude with the elastic force of the spring so that the anchor cap is a support for supporting the expansion anchor against the tensile force of the steel wire, and is inserted into the anchor body at the inner end of the expansion anchor. In addition to holding the inserted state, it is characterized in that a locking mechanism is installed to allow the radial projection by releasing it.

The above-mentioned cited inventions form perforated holes in the sloped surface as a whole, and then insert nails into the perforated holes, but combine the anchor body, the body and the spiker, or the expansion anchor that impart tensile resistance to the ground at the front end of the nail. It is formed to reinforce. Components for imparting such tensile resistance are generally applied to the anchor structure to extend to the inner wall of the ground by using a grouting pressure or a dedicated pressurizing device to impart tensile resistance.

However, the conventional techniques are difficult to process and manufacture because the structure of the anchor body, the body and the spiker, or the expansion anchor for tensile resistance is quite complicated, and due to the complex configuration, various external force changes that occur in the natural environment Each component may not work properly because it does not respond. As a result, it may not be able to withstand sufficient tensile resistance or ground load.

In addition, there is a need for a dedicated pressurization device, there is a disadvantage that construction on the slope is not easy.

In addition, the prior art is a structure that is generally installed on the slope, it may be inclined toward the lower side of the inner wall of the drilled hole by gravity when inserted into the drilled hole formed on the slope, whereby the balance between tensile force, ground resistance and frictional force There is a disadvantage that can not perform the ground reinforcement function properly.

The present invention has been made to solve the problems described above, the object of the present invention is to exert a strong anchoring force by allowing the spike portion to extend to the inner wall of the drilling hole at the same time as the pressing means inserted into the drilling hole by a simple structure and action. It is to provide a slope reinforcement device that can be.

The present invention for achieving the above object is a slope reinforcement device made of a tension body inserted into the drilling hole, and the anchor body is coupled to the tension body and the spike portion is mounted therein is extended to the inner wall of the drilling hole anchored The anchor body may include a lower case forming a container shape and having a curved portion at an edge thereof; Pressing means consisting of a cylindrical body which is accommodated in the lower case and movable up and down, and a pressing body formed in the upper portion of the body and formed with an upwardly inclined taper and a plurality of coupling holes through which the tension body is coupled; A hemispherical hinge ball seated on the curved part and rotatable is formed on the lower part, and an inclined part formed on the curved part to contact the taper part while reducing contact friction is formed on the curved part, and protrudes outwardly by the rising of the pressing means. A plurality of spikes extending; And an upper case in which a plurality of receiving holes are formed in the outer circumferential surface to accommodate the pressing means and coupled to the lower case, and a hole through which the tension body passes is formed at an upper portion thereof.

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Preferably, the upper and outer edges of the spike portion is characterized in that the irregularities are formed so that the spike portion is inserted into the inner wall of the perforation hole to increase the fixing force.

The effect of the present invention by the configuration as described above is simple in structure and easy to process and manufacturing, significantly reducing the production cost, and exhibits a strong anchoring force in a simple operation, greatly shortening the construction time.

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

1 is a cross-sectional view showing a slope reinforcing device according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the present invention shown in FIG.

Referring to the present invention, the present invention is formed by inserting the anchoring body 100 for fixing the anchoring body 100, such as steel wire or nail (deformed steel reinforcing bar), into the drilling hole 10 and filling and solidifying the grout. It relates to a slope reinforcing device and the anchor body 100 comprises a lower case 110, the pressing means 120, the spike portion 130 and the upper case 140.

First, the lower case 110 will be described.

The lower case 110 forms the whole of the anchor body 100 together with the upper case 140 to be described later to form a circular container shape to facilitate the insertion into the drilling hole (10).

The edge portion of the lower case 110 is formed with a curved portion 112 along the edge, as shown in the semi-circular recessed curved surface is formed, the outer side is formed high and the inner side is relatively low.

Next, the pressing means 120 will be described.

The pressing means 120 is to be accommodated in the lower case 110 to move up and down to raise the spike portion 130 to be described later to be pushed outwards, the body 122 and the pressurized body It consists of 124.

The body 122 forms a lower portion of the press body 124 and has a cylindrical shape, and the press body 124 having a tapered shape is coupled to the upper portion of the body 122.

The press body 124 is formed with a tapered portion 124a cut inclined upward and the upper end of the press body 124 may be coupled to the tension body 20, but preferably a plurality of couplings penetrated up and down The ball 124b is formed, it is preferable that a plurality of the tension body 20 is inserted and coupled.

Therefore, by pulling the tension body 20 to the outside, the pressing means 120 can be raised. For reference, three to four coupling holes 124b are suitable, which are provided to correspond to the number of spike portions 130 to be described later.

Next, the spike unit 130 will be described.

The spike portion 130 has a planar shape as a whole as shown in the left and right sides, the outer surface is curved to match the radius of curvature of the lower case 110, the inner surface is upwardly in contact with the tapered portion (124a) An inclined inclined portion 134 is formed. In addition, the upper surface of the spike portion 130 forms a curved surface similar to the fan shape.

In addition, a hemispherical hinge ball 132 is formed on a lower surface of the spike part 130, and the hinge ball 132 part is seated on the curved part 112 of the lower case 110 and the curved part 112. It is possible to slide along the) to support the spike portion 130 rotatably. That is, the hinge part 132 is rotatably supported by the hinge ball 132 on the curved part 112, and the inclined part 134 is secondarily supported by the taper part 124a to be erected. .

In addition, the hinge ball 132 can support the spike portion 130 rotatably even when seated on any portion of the edge of the lower case 110 along the curved portion 112, each configuration of the present invention Very convenient when assembling.

At this time, the spike portion 130 is disposed between each coupling hole 124b so that the inclined portion 134 does not block each coupling hole 124b formed in the tapered portion 124a. Therefore, if the coupling hole 124b is three, the spike portion 130 should also be three.

The spike portion 130 is rotated about the hinge ball 132 by the rising of the pressing means 120 is pushed to the side, thereby, the outer edge of the spike portion 130 is punched hole 10 It is extended and inserted into the inner wall of the 10.

At this time, the inclined portion 134 is preferably made of a curved surface, as shown, this has a disadvantage in that the friction force increases because the inclined portion 134 is a planar contact with the tapered portion 124a. Therefore, when the inclined portion 134 is formed in a curved surface, when the inclined portion 134 and the tapered portion 124a are in line contact or point contact when the pressing means 120 is raised, the frictional force is reduced and thus more easily. The spike portion 130 can be expanded.

In addition, it is preferable that the unevenness 136 is formed at the upper outer edge of the spike portion 130 as shown, which is a force applied when the spike portion 130 is inserted into the inner wall of the drilling hole 10. By increasing the anchor body 100 may be more firmly fixed to the inner wall of the drilling hole (10). It is apparent that the unevenness 136 may have a sawtooth shape and may be formed in plural.

Next, the upper case 140 will be described.

The upper case 140 is cylindrical in combination with the lower case 110, the pressing means 120 is built therein to be able to move up and down.

In addition, the outer circumferential surface of the upper case 140 accommodates the spike portion 130 and a plurality of receiving holes 142 having a penetrated shape so that the spike portion 130 may protrude into and out of the upper case 140. Dogs are formed.

The shape of the accommodating hole 142 corresponds to the spike portion 130 and generally has a quadrangular shape, but is not limited thereto. The size of the accommodating hole 142 protrudes from the accommodating hole 142. Preferably, a portion of the upper end of the portion 130 is caught by the upper surface of the receiving hole 142. This is because the spike portion 130 is pressurized by the rising of the pressing means 120 is expanded to the outside, but should not be separated.

Therefore, the upper end of the spike portion 130 and one side of the hinge ball 132 is supported so that the spike portion 130 is stopped in a partially protruding state.

Hereinafter will be described briefly with respect to the operating state of the present invention. 3 is an operating state diagram showing an operating state of the present invention.

The operator installs the pressing means 120 in the lower case 110 and assembles the spike portion 130 at equal intervals to the curved portion 112 of the lower case 110 to assemble the anchor body 100. Seated and placed.

Then, a plurality of tension bodies 20 (steel wires, etc.) are inserted through the holes of the upper case 140, and the tension bodies 20 are inserted into the coupling holes 124b to press the tension bodies 20 and the pressure. After coupling the means 120, the upper case 140 is coupled to the lower case 110. In this case, the spike portion 130 must be coupled to the receiving hole 142 so as to be accommodated, and the spike portion 130 is disposed to be seated between the coupling holes 124b.

Next, the assembled anchor body 100 and the tension body 20 are inserted into the drilling hole 10, and installed at the bottom of the drilling hole 10, and then pulling the tension body 20 from the outside. The tapered portion 124a pushes the inclined portion 134 of the spike portion 130 while the spike portion 130 is pushed outward through the receiving hole 142 and the drill hole 10 is raised. ) Is inserted into the inner wall.

At this time, the concave-convex 136 penetrates into the inner wall of the drilled hole 10 to increase the fixing force.

In this state, the slope reinforcement is finished by injecting and grouting the grout from the outside into the inside of the drilling hole 10 and then solidifying the grout.

Since the present invention described in detail with reference to the drawings is only one embodiment, the true technical protection scope of the present invention should be determined by the claims, and modifications and applications within the claims belong to the present invention.

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

Figure 2 is an exploded perspective view of the present invention shown in FIG.

3 is an operating state diagram showing an operating state of the present invention.

<< Explanation of main parts of drawing >>

10: hole 20: tension body

30: grout 100: anchor body

110: lower case 112: curved portion

120: pressurizing means 122: body

124: pressurized body 124a: tapered portion

124b: coupling hole 130: spike portion

132: hinge ball 134: inclined portion

136: irregularities 140: upper case

142: receiving hole 144: hole

Claims (4)

The tension body 20 inserted into the drilling hole 10 and the spike body 130 coupled to the tension body 20 and mounted therein extend the spike 130 to the inner wall of the drilling hole 10. In the slope reinforcement device consisting of an anchor body 100 to be fixed, The anchor body 100, A lower case 110 forming a container shape and having a curved portion 112 formed at an edge thereof; A cylindrical body 122 that is accommodated in the lower case 110 and moves up and down and forms a tapered portion 124a which is provided on the body 122 and is inclined upward, and the tension body 20 penetrates. Pressing means 120 consisting of a pressing body 124 is formed with a plurality of coupling holes (124b) coupled to each other; A hemispherical hinge ball 132 seated on the curved portion 112 and rotatable is formed thereon, and an upper portion of the inclined portion 134 formed in a curved surface to reduce contact friction with the tapered portion 124a. A plurality of spikes 130 formed to protrude and extend outwardly by the rising of the pressing means 120; Coupled with the lower case 110 to accommodate the pressing means 120 and a plurality of receiving holes 142 for receiving the spike portion 130 is formed on the outer peripheral surface and the tension body 20 passes through the upper Slope reinforcing device, characterized in that consisting of; upper case 140 formed with a hole (144). delete delete The method of claim 1, In the upper outer corner of the spike portion 130, Slope reinforcement device, characterized in that the uneven (136) is formed so that the spike portion 130 is inserted into the inner wall of the drilling hole 10 to increase the fixed force.

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