KR101679590B1 - 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 structure having an upper and lower natural stone coupling structure using a novel coupling device and a construction method thereof. An upper coupling member and a lower coupling member forming a coupling device are fixated and installed on rear sides of natural stones positioned above and below the same and coupled to each other to integrate the upper and lower natural stones to provide structural stability of the retaining wall structure. Also, both a linear reinforcing member and a grid net type reinforcing member are used as buried reinforcing members buried in back filling soil of the retaining structure and coupled to the rear side of the natural stone.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a natural stone retaining wall structure having an upper and lower natural stone joining structure using a coupling device and a linear stiffener,

The present invention relates to a retaining wall structure using natural stone and a method for constructing such a retaining wall structure. More particularly, the present invention relates to a method for constructing a retaining wall structure by laminating natural stones, And the upper and lower natural stones are integrated with each other so that the structural stability of the retaining wall structure can be achieved and at the same time the back surface of the natural stone is embedded in the back surface of the natural stone, A linear stiffener made of a wire material and a grid-type net-like stiffener can be selectively used as a buried stiffener to be bonded to the upper and lower natural stones, A natural stone retaining wall structure having a joining structure and a construction method thereof " .

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 case of the above conventional art, the natural stones are merely stacked up and down, and the construction for integrating the natural stones of the upper and lower natural stones is insufficient, and the structural stability of the retaining wall structure is deteriorated. In addition, in the prior art, since the embedding reinforcing material embedded in the backing soil so as to resist the back soil pressure is fixed to the natural stone by only the ring nut, the embedding reinforcing material is a simple linear material, such as a rope or a wire, And it is not possible to use a net-like reinforcing material composed of a grid which can be widely distributed on the back soil, so that the selection width of the buried stiffener is limited.

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 technique for enhancing the structural stability of a retaining wall structure by firmly integrating upper and lower natural stones rather than simply stacking up and down natural stones The purpose is to provide.

Another object of the present invention is to provide a technology for freely selecting and using a buried stiffener in the form of a mesh as a buried reinforcing material to be buried in the back soil so as to resist the back earth pressure, .

In order to achieve the above object, according to the present invention, a coupling device is fixed to an upper natural stones and a lower natural stones which are stacked sequentially with natural stones upward, and common to the upper natural stones and the lower natural stones; The coupling device comprises an upper joint member fixedly installed on a rear surface of an upper natural stone and a lower joint member fixedly installed on a rear surface of the lower natural stone; The upper binder and the lower binder include a horizontal coupling plate member having a coupling hole formed therein and a vertical coupling plate member connected to the horizontal coupling plate member but vertically bent and having an anchor hole formed therein; The anchor members of the upper and lower binding members of the upper and lower binding members are in close contact with the back surface of the upper and lower natural stones and are provided on the back surface of the upper and lower natural stones so that the horizontal combining plate members of the upper and lower binding members are opposed to each other, The upper and lower binding members are fixedly installed on the back surface of the upper and lower natural stones, respectively, by being inserted and fastened to the anchor holes; And the upper and lower natural stones are integrated by fastening the fastening members inserted and fastened to the coupling holes formed in the horizontal coupling plate members of the upper and lower coupling members, respectively.

In order to accomplish the above object, the present invention provides a method of constructing a retaining wall structure by sequentially stacking natural stones while upward, wherein a coupling device is fixedly installed on upper and lower natural stones and lower natural stones, The coupling device comprises an upper joint member fixedly installed on a rear surface of an upper natural stone and a lower joint member fixedly installed on a rear surface of the lower natural stone; The upper binder and the lower binder include a horizontal coupling plate member having a coupling hole formed therein and a vertical coupling plate member connected to the horizontal coupling plate member but vertically bent and having an anchor hole formed therein; When the coupling device is installed, the vertical coupling plate members of the upper and lower coupling members are brought into close contact with the back surface of the upper and lower natural stones so that the horizontal coupling plate members of the upper and lower coupling members face each other, The upper and lower binding members are fixed to the back surface of the upper and lower natural stones, respectively, by inserting and fastening the provided anchor members through the respective anchor holes; The upper and lower natural stones are integrated by inserting and fastening a fastening member into a coupling hole formed in the horizontal coupling plate member of each of the upper and lower coupling members to integrate the upper and lower natural stones.

In the natural stone retaining wall structure of the present invention and the construction method of the present invention as described above, a linear stiffener in the form of a band may be installed on the rear side of the retaining wall structure as a buried stiffener to be buried in the gravel soil. In this case, The linear stiffener is coupled to the coupling device in such a manner that the linear stiffener is inserted into the gap between the vertical coupling plate member of the coupling member and the rear surface of the retaining wall structure and then advanced backward to simultaneously surround the vertical coupling plate members of the upper and lower coupling members.

Alternatively, in the natural stone retaining wall structure of the present invention and the construction method thereof, a grid-like net-like stiffener may be provided as a buried stiffener embedded in the backing gypsum in the rear of the retaining wall structure. In this case, And the fastening member is inserted into the horizontal joint plate member of the upper joint member, the net reinforcement member and the horizontal joint plate member of the lower joint member and then fastened to fasten the front end portion of the net- Coupling device.

According to the present invention, the upper and lower binding members constituting the coupling device are respectively fixed to the back surface of the upper and lower natural stones located above and below, and the upper and lower binding members are joined to each other, So that the structural stability of the retaining wall structure can be greatly improved.

Further, in the present invention, both the linear stiffener made of a wire material and the net-shaped stiffener in the form of a grid can be used as a buried reinforcing material embedded in the back surface soil of the retaining wall structure and the front end thereof being bonded to the back surface of the natural stone, Therefore, it is possible to freely select and use the buried stiffener according to the situation of the site, so that it is advantageous that the field adaptability is excellent.

1 is a schematic perspective view of a rear surface of a retaining wall structure constructed according to a first embodiment of the present invention.
FIG. 2 is a schematic enlarged view of the circle A of FIG. 1 showing that the lower binding material is fixedly installed on the rear surface of the lower natural stone in the embodiment of FIG.
FIG. 3 is an enlarged view corresponding to FIG. 2 showing that the upper binder is fixedly installed on the back surface of the upper natural stone in the embodiment of FIG.
4 is a schematic perspective view of a rear surface of a retaining wall structure constructed according to a second embodiment of the present invention.
Fig. 5 is a schematic perspective view showing a state in which a buried stiffener made of a band-shaped linear stiffener is coupled to the coupling device of Fig. 1;
6 is a schematic cross-sectional view along the line BB in Fig.
FIG. 7 is a schematic perspective view showing a state in which a buried stiffener made of a net-like stiffener is coupled to the coupling device of FIG. 1;
8 is a schematic enlarged view of the circle C portion of Fig.
9 is a schematic cross-sectional side view along the line DD of Fig.
Fig. 10 is a schematic perspective view corresponding to Fig. 5 showing an embodiment of the present invention in which the front end of the linear stiffener is fastened to a coupling device in which the auxiliary horizontal plate member is omitted. Fig.
Fig. 11 is a schematic perspective view corresponding to Fig. 8 showing an embodiment in which the front end of the net-like stiffener is fastened to the coupling device in which the auxiliary horizontal plate member is omitted. Fig.
Fig. 12 is a schematic cross-sectional view corresponding to Fig. 6, showing that natural stones are constructed by stacking upper and lower natural stones in a form that the natural stones are backwardly separated by a certain distance, and the linear stiffeners are bound to the coupling device.
Fig. 13 is a schematic schematic lateral cross-sectional view corresponding to Fig. 9 showing that the natural stone is constructed by stacking up and down natural stones in such a manner that the natural stones are backwardly spaced by a certain distance and the net stiffener is bound to the coupling device.

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 perspective view of a rear surface of a retaining wall structure 100 constructed in accordance with a first embodiment of the present invention. As shown in the figure, the retaining wall structure 100 according to the present invention has a structure in which natural stones are sequentially stacked on the top. In the upper and lower natural stones 20a and 20b and the lower natural stones 21 The coupling device 1 is fixedly installed in common, and the coupling device 1 integrates the upper and lower natural stones. As described later, the coupling device 1 is fastened to the buried stiffener 2 to be embedded in the back soil gravel.

Specifically, the coupling device 1 includes a pair of coupling members, that is, an upper coupling member 10 and a lower coupling member 11. The upper coupling member 10 is fixed to the back surface of the upper natural stone, Is fixed to the back surface of the lower natural stone (21). FIG. 2 is a schematic enlarged view of the circle A of FIG. 1 showing that the lower binder 11 is fixedly attached to the rear surface of the lower natural stone 21. 2 (a) is an exploded perspective view showing a process of installing the lower binder material 11, and FIG. 2 (b) is an assembled perspective view showing a state after the lower binder material 11 is fixedly installed.

The lower binder material 11 includes a horizontal coupling plate member H and a vertical coupling plate member V which is continuous with the horizontal coupling plate member H but is vertically bent and brought into close contact with the back surface of the natural stone. In the embodiment shown in the drawing, the lower horizontal member 11 is further provided with an auxiliary horizontal plate member H2, which is continuous with the vertical coupling plate member V and is bent in the horizontal direction from the vertical coupling plate member V , And when viewed in the transverse direction (width direction of the retaining wall structure), the lower binding material 11 has a U-shape. However, since the auxiliary horizontal plate member H2 can be provided if necessary, it can be omitted. In the case where the auxiliary horizontal plate member H2 is omitted, the lower side coupling member 11 has a shape . An anchor hole 14 through which the anchor member 101 passes is formed in the vertical coupling plate member V. A coupling member for coupling with the upper coupling member 10 A bolt) is formed in the through hole 13. It is preferable that the coupling hole 13 is formed in a long hole extending in the backward direction.

The lower coupling member 11 may be formed in a manner such that the vertical coupling plate member V is positioned on the lower natural stones V in a state in which the horizontal coupling plate member H faces upward, 21 in a state of being closely attached to the back surface of the lower natural stone 21. An anchor member 101 such as an anchor bolt penetrates and is fixed to the rear surface of the lower natural stone 21 such that the vertically engaging plate member V is in contact with the rear surface of the lower natural stone 21, The nut member 102 is fastened to the rear end portion of the anchor member 101 after the rear end portion of the anchor member 101 protruding rearward from the back surface is passed through the anchor hole 14, And is firmly fixed to the back surface of the natural stone (21).

FIG. 3 is an enlarged view corresponding to FIG. 2 showing that the upper binder 10 is fixed to the back of the upper natural stone. FIG. 3 (a) 3 (b) is an exploded perspective view showing a state in which the upper binder 10 is integrated with the lower binder 11 after the upper binder 10 is fixed. FIG. 3 (c) Is an assembled perspective view showing the state.

As shown in the figure, the upper binder 10 also includes a horizontal coupling plate member H and a vertical coupling plate member V, like the lower coupling member 11. [ The upper joint member 10 may also have an auxiliary U-shaped plate member H2 and may have a U-shaped shape when viewed in the lateral direction. However, if necessary, the auxiliary horizontal plate member H2 may be provided on the upper joint member 10 It can be omitted when viewed in the lateral direction. The above-described contents of the anchor hole 14 and the coupling hole 13 are applied to the upper joint member 10 as well.

Unlike the lower binder material 11, when the upper binder material 10 is bonded to the upper natural stone, the horizontal coupling plate material H is positioned such that the horizontal coupling plate member H faces downward, that is, , And the vertical coupling plate member (V) is firmly fixed to the upper natural stones in a state of being in close contact with the back surface of the upper natural stones. However, the structure in which the vertical coupling plate member V is fixedly mounted on the upper natural stone in the upper coupling member 10 is the same as that in the case of the lower coupling member 11 described above.

When the upper and lower binding members 10 and 11 are coupled to the back surface of the upper natural stones and the lower natural stones, respectively, the horizontal coupling plate members H face each other. Particularly, desirable. The horizontal joining plate member H of the upper joint member 10 joined to the upper natural stone is sandwiched between the horizontal joining plate member H and the horizontal joining plate member H of the lower joining member 11, A fastening member 15 such as a bolt is inserted into the communicating hole 13 between the plate members H and the nut member 102 is fastened to the end of the fastening member 15, (H) is engaged by the fastening member (15). That is, the upper and lower coupling members 10, 11 of the coupling device 1 are firmly integrated with each other by the coupling between the horizontal coupling plate members H as described above. The upper and lower binding members 10 and 11 of the coupling device 1 are integrated so that the upper and lower natural stones stacked up and down are firmly integrated with each other.

In the case of the embodiment shown in Figs. 1 to 3, two upper natural stones 20a and 20b are arranged in the lateral direction at positions where the coupling device 1 composed of the upper and lower binding members 10 and 11 are installed, And an upper joint member 10 is fixedly attached to a portion in contact therewith. In this case, the effect of integrating one lower natural stone 21 and the two upper natural stones 20a and 20b into one is achieved by integrating the upper and lower binder materials 10 and 11.

1 to 3 for explaining the present invention, the upper and lower binding members 10 and 11 of the coupling device 1 are shown to be fixedly connected to each other after the upper and lower natural stones are laminated, In practice, the retaining wall structure may be constructed in this form, but is not limited thereto. For example, in the state where the lower natural stones are disposed but the upper natural stones are not yet stacked, the upper natural stones may be laminated after the lower binding material is fixed to the lower natural stones, and then the upper binding material may be fixed to the upper natural stones. Particularly, the lower natural stones may be preliminarily prepared so that the lower binding material is fixed in advance, and the upper natural stones may be fixed to the upper natural stones after the upper natural stones are installed on the lower natural stones. In this case, it is preferable that the installation position of the upper binder 11 is a portion in which two upper natural stones 20a and 20b are in contact with each other in the lateral direction as in the embodiment shown in Figs. That is, when the upper and lower natural stones are laminated, it is preferable that the portions where the two natural stones at the same height come into contact with each other in the lateral direction are alternately arranged in the vertical direction. And may be installed so as to be commonly disposed on the two upper natural stones 20a and 20b as illustrated. When the upper joint member 10 is fixed to the portion where the two upper natural stones 20a and 20b are continuously arranged in contact with each other in the transverse direction, the upper and lower joint members 10 and 11 are integrally joined, An effect of integrating one lower natural stone 21 and two upper natural stones 20a and 20b is achieved by one coupling device 1 composed of the lower binding members 10 and 11. [

The position in which the coupling device 1 is installed in the present invention is not limited to that described above. FIG. 4 is a schematic perspective view corresponding to FIG. 1 showing a rear surface of a retaining wall structure 100 constructed according to a second embodiment of the present invention. As shown in FIG. 4, the lower binding material 11 is fixed to the portion where the two lower natural stones are arranged in contact with each other in the transverse direction so that the lower binding material 11 is disposed in common to the two lower natural stones. The binder 10 may be fixed to one upper natural stone. In the case shown in FIG. 4, the effect that the two lower natural stones and the one upper natural stones are integrated by one coupling device 1 composed of the upper and lower binding materials 10, 11 is obtained.

Alternatively, the upper and lower binder materials 10 and 11 may be fixed to one upper natural stone and one lower natural stone, respectively. Further, the upper binder 10 may be commonly disposed on the two upper natural stones, The lower binder material 11 is also commonly disposed on the two lower natural stones so that the two upper natural stones and the two lower natural stones can be integrated by one coupling device 1. [

In the present invention, the front end of the buried stiffener to be embedded in the backing gravel may be joined to the coupling device 1 that integrates the upper and lower natural stones. That is, the buried stiffener can be disposed to extend rearwardly of the retaining wall structure to be embedded in the backing soil, and the front end of the buried stiffener is bound to the coupling device 1 by the method of the present invention described below .

5 shows a schematic perspective view showing a state in which a band-shaped linear stiffener having a predetermined width in the transverse direction is coupled to the coupling device 1 of Fig. 1 as an example of the embedment stiffener 2. Fig. Fig. 6 shows a schematic cross-sectional view taken along the line B-B of Fig. As shown in Figs. 5 and 6, the linear stiffener in the form of a band corresponding to the embedding stiffener has a structure in which the front end thereof winds the vertical coupling plate members V of the upper and lower coupling members 10, Can be coupled to the ring device (1). For example, the front end portion of the linear stiffener enters the back side of the retaining wall structure from the lower side of the lower side joining member 11, and vertically joins the vertical joining plate member V of the lower joining member 11 and the back side of the retaining wall structure. The front end portion of the linear stiffener is inserted into the gap between the vertical coupling plate member V of the upper coupling member 10 and the rear surface of the retaining wall structure and then moved backward, 10, and 11, respectively, at the same time. Of course, the front end portion of the linear stiffener enters the back surface of the retaining wall structure from above the upper joining member 10, so that the gap between the vertical joining plate member V of the upper joining member 10 and the back surface of the retaining wall structure, 11 may penetrate through the gap between the vertical coupling plate member V and the back surface of the retaining wall structure sequentially and then proceed backward. As described above, in the present invention, the front end portion of the linear stiffener in the form of a band can be easily attached to the coupling device 1 in the form of being wound around the coupling device 1 as a buried stiffener. By such binding, the buried stiffener 2 can be firmly integrated with the natural stone, that is, the retaining wall structure.

When the front end portion of the band-shaped linear stiffener is wound around the coupling device 1 to tighten the coupling between the anchor member 101 and the nut member 102, It is preferable to secure sufficient clearance for allowing the linear stiffener to be easily inserted between the back surface of the retaining wall structure and the back surface of the retaining wall structure and to make the fastening member 15 integrating the upper and lower fasteners 10 and 11 into a loose state desirable. This is because the anchor member 101 and the nut member 102 are strongly coupled and the coupling member 15 is strongly coupled after the front end of the linear stiffener is wound around the coupling device 1. [

In the case of the present invention, in addition to the linear stiffener made of the above-mentioned strip-shaped wire material as the embedding stiffener, the grid-like meshed stiffener can be easily installed. Fig. 7 is a schematic perspective view showing a state in which a buried stiffener 2 made of a net-like stiffener is coupled to the coupling device 1 of Fig. 1 and installed at the rear of the retaining wall structure 100, and Fig. 8 7 is a schematic enlarged view showing the detail of the circle C portion, that is, the front end coupling structure of the net-like stiffener, and Fig. 9 shows a schematic lateral cross-sectional view according to the line DD of Fig.

In this case, in the state where the lower natural stone 21 and the lower joint material 11 are installed, the front end portion of the net-like stiffener is connected to the lower joint member 11 On the upper surface of the horizontal coupling plate member H. At this time, when a separate fastening hole is formed in the front end portion of the net-like stiffener, the fastening hole of the net-like stiffener is aligned with the fastening hole 13 formed in the horizontal coupling plate member H of the lower fastening member 11 . However, if there is no separate fastening hole at the front end of the net-like stiffener, the mesh of the net-like stiffener should coincide with the fastening hole 13.

The upper natural stones 20a and 20b in which the net-like stiffeners are disposed are disposed and the upper joint member 10 is fixed to the upper natural stones. The state in which the front end portion of the net-like stiffener is sandwiched between the horizontal joining plate member H of the upper joining member 10 and the horizontal joining plate member H of the lower joining member 11 . In this state, the fastening member 15 such as a bolt is fastened to the coupling hole 13 formed in the horizontal coupling plate member H of the upper coupling member 10, the fastening hole of the net-like stiffener, The upper joint member 10 and the front end of the net-like stiffener and the lower joint member 11 are completely integrated. In this case, when no separate fastening hole is present at the front end of the net-like stiffener, the fastening member 15 is engaged with the coupling hole 13 of the upper fastening member 10, the net of the net-like stiffening member, Is inserted through the hole (13).

According to the present invention, since the coupling device having the above-described structure is provided in the retaining wall structure, it is possible to fasten the buried reinforcing material firmly to the retaining wall structure using the grid-like net-like reinforcement as well as the linear reinforcement made of the wire as the embedding reinforcement And particularly, it is possible to extremely easily perform the fastening operation of the embedment stiffener.

As described above, in the present invention, the auxiliary horizontal plate member H2 may be omitted in constructing the upper and lower binding members 10, 11. Even in the case of the coupling device 1 including the upper and lower coupling members 10 and 11 in which the auxiliary horizontal plate member H2 is omitted, the linear stiffener and the net-like stiffener can be easily installed as described above. Fig. 10 is a schematic perspective view corresponding to Fig. 5 showing an embodiment in which the front end portion of the linear stiffener is fastened to the coupling device 1 in which the auxiliary horizontal plate member H2 is omitted, There is shown a schematic perspective view corresponding to Fig. 8 showing an embodiment in which the front end of the net-like stiffener is fastened to the coupling device 1 with the flat plate member H2 omitted.

On the other hand, in stacking the upper and lower natural stones, the natural stones may be stacked in a form that they are rearwardly spaced by a certain distance as they go up. In the present invention, the fastening holes 13 for integrating the upper and lower fasteners 10 and 11 may be formed as elongated holes extending in the backward direction. In this case, The upper and lower fasteners 10 and 11 can be easily integrated by the fastening member 15 even if they are further rearwardly displaced from each other. Therefore, according to the present invention, there is an advantage that it is very easy to stack the natural stones on the upper and lower natural stones in such a form that the natural stones fall backward by a certain distance. FIG. 12 is a schematic cross-sectional view corresponding to FIG. 6, which shows that a linear stiffener constructed by stacking upper and lower natural stones in such a manner that a natural stone is backwardly spaced a certain distance is bound to a coupling device 13 shows a schematic cross-sectional view corresponding to FIG. 9 corresponding to FIG. 9 showing that the natural stone is constructed by stacking up and down natural stones in the form of backing away a certain distance rearward, and the net-like stiffener being bound to the coupling device have.

As described above, in the present invention, the upper joint member 10 and the lower joint member 11 constituting the coupling device 1 are respectively fixed to the back surface of the upper and lower natural stones located above and below, The upper and lower natural stones can be firmly integrated with each other, thereby greatly improving the structural stability of the retaining wall structure.

Further, in the present invention, both the linear stiffener made of a wire material and the net-shaped stiffener in the form of a grid can be used as a buried reinforcing material embedded in the back surface soil of the retaining wall structure and the front end thereof being bonded to the back surface of the natural stone, Therefore, it is possible to freely select and use the buried stiffener according to the situation of the site, so that it is advantageous that the field adaptability is excellent.

1: Coupling device
2: buried stiffener
10: Upper binder
11: Lower binder
20a, 20b: upper natural stone
21: Lower natural stone
H: Horizontal coupling plate member
H2: auxiliary water level plate member
V: Vertical coupling plate member

Claims (9)

delete A coupling device 1 is fixedly installed on top and bottom natural stones and bottom natural stones located above and below;
The coupling device 1 comprises an upper joint member 10 fixed to the back surface of the upper natural stone and a lower joint member 11 fixed to the back surface of the lower natural stone 21;
The upper joint member 10 and the lower joint member 11 are connected to each other by a horizontal coupling plate member H in which a coupling hole 13 is formed and a horizontal coupling plate member H which is continuous with the horizontal coupling plate member H, And a vertical coupling plate member (V) having a hole (14) formed therein;
The vertical joining plate members V of the upper and lower joining members 10 and 11 are brought into close contact with the back surface of the upper and lower natural stones so that the horizontal joining plate members H of the upper and lower joining members 10 and 11 face each other The anchor member 101 protruded from the back surface of the upper and lower natural stones is inserted and fastened to the anchor holes 14 so that the upper and lower binding members 10 and 11 are fixed to the back surface of the upper and lower natural stones, Installed;
The upper and lower natural stones are integrated by being inserted and fastened to the coupling holes 13 formed in the horizontal coupling plate member H of the upper and lower coupling members 10 and 11 ;
A buried stiffener (2) extending rearwardly of the retaining wall structure and embedded in the backsided gravel is further provided with a band-shaped linear stiffener;
The front end portion of the linear stiffener is inserted through a gap between the vertical coupling plate member V of the upper and lower coupling members 10 and 11 and the rear surface of the retaining wall structure and then moved backward to be joined to the upper and lower coupling members 10 and 11 ) Of the vertical coupling plate member (V) of the coupling device (1).
delete 3. The method of claim 2,
The upper joint member 10 is located at a portion where the two upper natural stones 20a and 20b are in contact with each other and are connected and fixed to the two upper natural stones 20a and 20b in common. .
3. The method of claim 2,
Wherein the lower binder material (11) is located at a portion where two lower natural stones are in contact with each other and are continuously connected and fixed to two lower natural stones in common.
3. The method of claim 2,
Each of the upper binder material 10 and the lower binder material 11 is further provided with an auxiliary horizontal plate member H2 which is continuous with the vertical coupling plate member V and is bent in the horizontal direction from the vertical coupling plate member V , The upper binder material (10), and the lower binder material (11) have a U-shaped U-shape when viewed from the lateral direction.
delete As a method for constructing a retaining wall structure by sequentially stacking natural stones upward,
The coupling device 1 is fixed to the upper natural stones and the lower natural stones located above and below. The coupling device 1 includes an upper joint member 10 fixed to the back surface of the upper natural stone, And a lower binding member 11 fixedly attached to the back surface of the base member 21;
The upper joint member 10 and the lower joint member 11 are connected to each other by a horizontal coupling plate member H in which a coupling hole 13 is formed and a horizontal coupling plate member H which is continuous with the horizontal coupling plate member H, And a vertical coupling plate member (V) having a hole (14) formed therein;
The vertical coupling plate member V of each of the upper and lower coupling members 10 and 11 is formed so that the horizontal coupling plate members H of the upper and lower coupling members 10 and 11 face each other when the coupling device 1 is installed. And the anchor member 101 protruded from the back surface of the upper and lower natural stones is inserted into the respective anchor holes 14 and fastened to the upper and lower natural stones so that the upper and lower binding members 10 and 11 ) Are fixedly installed on the back surface of the upper and lower natural stones, respectively;
And integrating the upper and lower natural stones by inserting and fastening the fastening members (15) into the fastening holes (13) formed in the horizontal engagement plate members (H) of the upper and lower fasteners (10, 11)
As a buried stiffener (2) buried and arranged on the back soil gravel, a band-shaped linear stiffener is installed behind the retaining wall structure;
The front end portion of the linear stiffener is inserted through the gap between the vertical coupling plate member V of the upper and lower coupling members 10 and 11 and the back surface of the retaining wall structure, Wherein the linear stiffener is coupled to the coupling device (1) in such a manner as to simultaneously surround the vertical coupling plate member (V) of the coupling member (1). delete

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