KR101679587B1 - Retaining Wall using Natural Rock, and Constructing Method of such Retaining Wall - Google Patents

Abstract

The present invention relates to a natural stone retaining wall having a structure of fixating a rear end portion of a reinforcing strip by soil nailing and a construction method thereof. When a retaining wall is built by stacking natural stones, a reinforcing strip is connected to a rear side of the natural stone and a rear end portion of the reinforcing strip is not only simply buried in newly built back filling soil but also firmly buried and fixated to a sloped surface of the natural ground. Therefore, a reinforcing effect of the natural stone by the reinforcing strip is maximized, and thus structural stability of the retaining structure is enhanced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a natural stone retaining wall structure having a rear end fixing structure of a fiber reinforcing material by soil nailing and a construction method thereof,

The present invention relates to a retaining wall structure using natural stone and a method of constructing such a retaining wall structure. More specifically, in the construction of a retaining wall structure by laminating natural stones, a fiber reinforcing material is bonded to the back surface of a natural stone, The rear end portion of the fiber reinforcing material is embedded in and fixed to the ground surface of the inclined surface together with a soil nail member for the purpose of stabilizing the inclined surface of the ground, To a natural stone retaining wall structure having a rear end fixing structure of a fiber reinforcing material by soil nailing, which has a new structure that greatly improves the back earth pressure resistance and thereby improves the structural stability.

A technique of using a natural stone in construction of a retaining wall structure is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0056668. In this conventional technique, a ring nut is installed on the back surface of a natural stone by using an anchor bolt, and a fixing line is connected to a ring nut to embed a fixed line on the back surface soil in order to construct a retaining wall structure by sequentially stacking natural stones .

However, in the above-mentioned conventional art, since the fixed line connected to the back surface of the natural stone is horizontally arranged in the rear soil slab newly formed and embodied, and is merely embedded in the back slurry, the fixed line is not firmly fixed, So that the reinforcing effect of the natural stone can not be sufficiently exhibited.

Korean Patent Publication No. 10-2011-0056668 (published on May 31, 2011).

The present invention has been developed in order to overcome the limitations of the prior art as described above and it is an object of the present invention to provide a fiber reinforcing material which is connected to the back surface of a natural stone and which not only embeds the rear end portion of the fiber reinforcing material into the newly- And to provide a technique capable of maximizing the reinforcing effect of natural stones by the fiber reinforcing material and improving the structural stability of the retaining wall structure.

In order to achieve the above object, according to the present invention, a retaining wall body is constructed by stacking natural stones, a fiber reinforcing material in the form of a band is coupled to the back surface of a natural stone, the fiber reinforcing material is extended and extended backward, And the inclined surface of the paper sheet is filled with the backing soil, the fiber reinforcement is embedded in the backing soil; A nailing member is inserted into the perforation, the grouting material is filled in the perforation, and the nailing member is embedded in the grouting material while the nailing member is fixed to the upper end of the nailing member projecting out of the inclined surface, And the nip member presses the slope with the platen; The rear end portion of the fiber reinforcing material is also inserted into the perforation together with the nailing member and the rear end portion of the fiber reinforcing material is hardened in a state where the rear end portion of the fiber reinforcing material is embedded in the grouting material injected into the perforation. And a resisting force against the earth pressure is exerted by the fiber reinforcing member. The natural stone retaining wall structure and the method for constructing the natural stone retaining wall structure are provided.

According to the present invention, since the rear end portion of the fiber reinforcing member is embedded in the ground sheet of the inclined surface and is firmly fixed by the grouting material, even when the retaining wall structure is constructed or the back earth pressure acts on the natural stone in the course of construction, A large resistance force is exhibited by the fiber reinforcing material, so that the resistance against the earth pressure on the back surface of the natural stone retaining wall structure is greatly improved, and the structural stability of the retaining wall structure constructed by the natural stone is greatly improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic lateral cross-sectional view showing a state in which a fiber reinforcing material is disposed on the back surface of a natural stone in the present invention.
2 is a detailed view of the circle A portion of FIG. 1 showing in detail a structure for embedding and fixing the rear end portion of the fiber reinforcing material in the ground of the inclined plane in the present invention.
3 is a schematic perspective view showing an embodiment of a configuration in which a front end of a fiber reinforcing member is coupled to a rear surface of a natural stone in the present invention.
4 is a schematic exploded perspective view showing a state of the combined structure of FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby. In this specification, the term "rear surface" means the surface to which the rear soil or back surface soil contacts in the retaining wall structure 100, and the term "rear" means the direction from the retaining wall structure toward the back surface soil material. The term "forward" means, on the contrary, the direction from the back soil to the back surface of the retaining wall structure. In particular, the term " natural stone " is used throughout the present specification. Herein, natural stone is not limited to natural stone as a narrow meaning, but may be variously used for constructing artificial stone and retaining wall structure made of artificial material And should be interpreted in a broad sense to include all blocks of the shape. In addition, in the construction of the retaining wall structure according to the present invention, the description of known processes such as slope cutting and filling of the backside soil at the rear of the retaining wall structure will be omitted.

FIG. 1 is a schematic cross-sectional view showing a state in which a fiber reinforcing material 1 is bonded to the back surface of a natural stone 20 in a retaining wall structure according to a first embodiment of the present invention. There is shown a detailed view of the circle A portion of Fig. 1 showing in detail a structure for embedding and fixing the rear end of the fiber reinforcing member 1 in the ground of the inclined plane.

The retaining wall structure of the present invention is constructed using a natural stone 20, wherein a band-shaped fiber reinforcing material 1 having a width is attached to the back surface of the natural stone 20, and the fiber reinforcing material 1 is long Respectively. Therefore, when the backsided gypsum is filled in the space between the retaining wall main body built up by stacking of natural stones and the sloped surface of the paperboard, a portion extended backward from the fiber reinforcing material 1 is embedded in the back gypsum. That is, the fiber reinforcing material 1 is embedded in the soil gypsum. However, in the present invention, not only the fiber reinforcing material 1 is simply embedded in the backing gypsum, but the rear end portion of the fiber reinforcing material 1 is inserted into the ground pattern 40 of the inclined surface and is embedded and fixed .

Specifically, as shown in FIG. 2, a soil nail is installed on an inclined surface of a paper sheet on which a retaining wall structure is built in order to stabilize the slope. Specifically, a perforation 30 is formed at a predetermined depth in a slanting surface 40, and then a nailing member 31 made of a reinforcing bar, a steel bar, or a tension member is inserted into the perforation 30 The grouting material 32 such as mortar or the like is injected into the perforation 30 to fill the nailing member 31 into the grouting material 32 to be firmly fixed by using the injection hose, The nail member 35 is engaged with the upper end of the nail member 31 protruding outwardly so that the nail member 35 presses the inclined surface.

In the present invention, when the soil nail is applied using the nailing member 31, the rear end of the fiber reinforcing member 1 is inserted and fixed together with the nailing member 31 in the perforation 30. That is, when inserting the nailing member 31 into the perforation 30 as shown in the drawing, the rear end of the fiber reinforcement 1 is also inserted into the perforation 30 together with the nailing member 31 . The nailing member 31 and the fiber reinforcing member 1 may be joined together with the nailing member 31 and the rear end of the fiber reinforcing member 1 using a binding wire such as a wire or other member capable of binding, 1 may be inserted into the perforation 30 together. Of course, the rear end portions of the nailing member 31 and the fiber reinforcing member 1 may be individually inserted into the perforations 30, respectively.

The grouting material is injected into the perforation 30 in a state where the nailing member 31 and the rear end of the fiber reinforcing material 1 are both inserted into the perforation 30 at a predetermined depth, Not only the ring member 31 but also the rear end portion of the fiber reinforcing member 1 are also buried in the grouting material 32. In this state, the grouting material 32 is hardened so that the rear end portion of the fiber reinforcing member 1 is firmly .

Meanwhile, in the present invention, the front end of the fiber reinforcing member 1, that is, the end portion in the direction of the retaining wall structure is joined to the back surface of the natural stone 20. 3 is a schematic perspective view showing an embodiment in which the front end of the fiber reinforcing member 1 is coupled to the back surface of the natural stone 20, and FIG. 4 is a schematic perspective view showing the state of the combined structure of FIG. Fig.

The front end portion of the fiber reinforcing member 1 is coupled to the back surface of the natural stone 20 so that the anchor member 23 is inserted into the natural stone 20 so that the rear end portion of the anchor member 23 protrudes from the back surface of the natural stone 20. [ 20, and the fastening device is assembled and coupled to the projected anchor member 23. In the embodiment shown in the drawing, the first fastening device 21 and the second fastening device 21, each having a cross section in the transverse direction and having a through hole 210 through which the anchor member 23 passes, 22 are assembled to the projected rear end portion of the anchor member 23 so that the front end of the fiber reinforcing member 1 is bound to the first fastening device 21 and the second fastening device 22 Lt; / RTI >

The protruding rear end of the anchor member 23 is inserted into the through hole 210 of the first fastening device 21 and the through hole 210 of the second fastening device 22 so as to sequentially pass through the first fastening device The front end of the fiber reinforcing member 1 is inserted at a distance between the first fastening device 21 and the second fastening device 22 and the fiber reinforcing member 1 is inserted into the first fastening device 21, So that the front end of the second fastening device 22 surrounds the second fastening device 22 having a cross-sectional shape of the letter U. The second fastening device 22 is inserted into the U-shaped concave portion of the first fastening device 21 while the front end of the fiber reinforcing member 1 is wrapped around the second fastening device 22, A fastening member 24 such as a nut is fastened to the rear end portion of the anchor member 23 passing through the device 22 so that the first fastening device 21, the band- Are tightly adhered to each other, the front end of the fiber reinforcing member 1 is firmly integrated with the natural stone 20.

As described above, in the present invention, the rear end portion of the fiber reinforcing member 1 is embedded in the ground surface of the inclined surface and is firmly fixed by the grouting material. As described above, the front end portion of the fiber reinforcing member 1 is rigid Even if a back earth pressure or the like acts on the natural stone 20 in a state in which the retaining wall structure is filled with the backing soil so as to fill the fiber reinforcing material 1 with the fiber reinforcing material 1, So that the resistance against the earth pressure of the back surface of the natural stone retaining wall structure is greatly improved and the structural stability of the retaining wall structure constructed by the natural stone is greatly improved. That is, in the present invention, it is possible to maximize the reinforcing effect of the natural stone by the fiber reinforcing material through the rear end fixing structure of the fiber reinforcing material 1, and thereby the structural stability of the retaining wall structure can be improved .

1: Fiber reinforcement
20: Natural stone
21: first fastening device
22: second fastening device

Claims (4)

A retaining wall body is constructed by stacking the natural stones 20 and a fibrous stiffener 1 in the form of a band is coupled to the back surface of the natural stone 20. The fibrous stiffener 1 is extended and arranged rearward, Wherein the fiber reinforcing material (1) is embedded in the backing soil when the backing gypsum is sandwiched in the space between the main body and the slopes of the paper sheet;
A perforation 30 is formed in the sloped ground plate 40 and the nailing member 31 is inserted into the perforation 30. The grouting material 32 is filled in the perforation 30 to form the nailing member 30 The nail member 35 is engaged with the upper end of the nailing member 31 protruding out of the inclined surface in a state where the nail member 31 is embedded in the grouting material 32 and the pressure plate 34 presses the inclined surface ;
The rear end of the fiber reinforcing member 1 is bound to the nailing member 31 by a member capable of binding so that when the nailing member 31 is disposed on the perforation 30, Is disposed in the perforation (30) at the same time as the nailing member (31);
The grouting material 32 is hardened in a state where the rear end of the fiber reinforcing material 1 and the nailing member 31 are buried in the grouting material 32 injected into the perforation 30, The rear end is embedded and fixed in the ground plane of the inclined surface;
The anchor member 23 is fixedly inserted into the natural stone 20 so that the rear end of the anchor member 23 protrudes from the back surface of the natural stone 20 and has a cross section in the transverse direction, The protruded rear end portions of the anchor member 23 sequentially pass through the first fastening device 21 and the second fastening device 22,
The front end of the fiber reinforcing member 1 is inserted at the interval between the first fastening device 21 and the second fastening device 22 so that the front end of the fiber reinforcing member 1 is inserted into the second The second fastening device 22 is inserted into the U-shaped concave portion of the first fastening device 21 while the fastening device 22 is wrapped around the anchor member 23 The first fastening device 21 and the belt-like fiber reinforcing member 1 and the second fastening device 22 are brought into close contact with each other so that the front end of the fiber reinforcing member 1 Is integrated with the natural stone (20), whereby the resisting force against the earth soil pressure is exhibited by the fiber reinforcing material (1).
delete delete A natural stones are stacked to construct a retaining wall body, and a band-shaped fiber reinforcing material (1) is joined to the back surface of the natural stone (20). The fiber reinforcing material (1) A method of constructing a retaining wall structure by allowing a fibrous reinforcement (1) to be embedded in backing gypsum when a backsided gypsum is embossed in a space between inclined surfaces,
A perforation 30 is formed on the slope 40 of the base sheet 40 and the nailing member 31 is inserted into the perforation 30 and the grouting material 32 is filled in the perforation 30 to form the nailing member 31 The nailing member 35 is fastened to the upper end of the nailing member 31 protruding out of the inclined surface with the grooved member 32 fixed to the grouting member 32 so that the support plate 34 presses the inclined surface ;
The rear end portion of the fiber reinforcing member 1 is inserted into the perforation 30 together with the nailing member 31 and the rear end portion of the fiber reinforcing member 1 is also inserted into the grouting member 32 injected into the perforation 30 By hardening the grouting material 32 in a state of being buried, the rear end of the fiber reinforcing material 1 is buried and fixed in the ground plane of the inclined surface, so that the fiber reinforcing material 1 exerts a resistive force against the back earth pressure;
When the nailing member 31 is disposed in the perforation 30, the rear end of the fiber reinforcing member 1 is joined to the nailing member 31 by a member capable of binding, By arranging the fiber reinforcing material 1 in the perforation 30 in a state where the rear end of the fiber reinforcing material 1 and the nailing member 31 are embedded in the grouting material 32 injected into the perforation 30 The grouting material (32) is hardened so that the rear end of the fiber reinforcing material (1) is embedded and fixed in the ground plane of the inclined plane;
The anchor member 23 is fixedly installed in the natural stone 20 so that the rear end of the anchor member 23 protrudes from the back surface of the natural stone 20 and the cross- The rear end of the anchor member 23 is sequentially passed through the first fastening device 21 and the second fastening device 22 having the U-shaped through-holes 210 formed therein, The front end of the fiber reinforcing member 1 is inserted at an interval between the second fastening device 22 and the second fastening device 22 so that the front end of the fiber reinforcing member 1 is inserted into the second fastening device 22 having a cross- The second fastening device 22 is inserted into the concave portion of the C-shaped shape of the first fastening device 21 and the rear end of the anchor member 23 passing through the second fastening device 22 The fastening member 24 is fastened so that the first fastening device 21, Construction method of a stone retaining wall structure characterized in that on the fiber reinforcing material (1) and the second fastening device 22 is thereby brought into close contact with each other, so that the front end of the fiber reinforcement (1) is integrally combined with a natural stone (20).

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