KR101793099B1 - Connection apparatus for slope faced embankment wall and slope faced embankment method using the same - Google Patents

Abstract

The present invention relates to a connection device for connecting a wall (20) which covers the entire surface of an additional embankment and an existing intrusive body (10) buried in an existing slope and an embankment construction method using the same when the additional embankment is performed in front of the existing slope. A connection plate (30) composed of a swash plate (31) and a standing plate (37) is installed on the head of the existing intrusive body (10). After the wall (20) for covering the additional embankment such as a retaining wall block and the connection plate (30) are coupled by a coupling rod (50) which is a steel rod, the additional embankment is performed. According to the present invention, the existing intrusive body (10) buried in the existing slope and the additional embankment wall (20) can be connected by the coupling rod (50) capable of resistance to various external forces such as tension, compression, warping, and twisting. The horizontal position of the coupling rod (50) is stably maintained through the connection plate (30) composed of the swash plate (31) and the standing plate (37).

Description

Technical Field [0001] The present invention relates to a slope forward embankment wall connection device and a slope forward embankment method using the slope forward embankment wall connection device,

The present invention relates to a connection device for connecting a wall body 20 covering an entire surface of an additional clay body to an existing internal body 10 embedded in an existing slope and an embankment method using the same, The existing penetration body 10 is provided with a connecting plate 30 composed of a swash plate 31 and a standing plate 37 and the like and a connecting wall 30 and an additional clay covering wall body 20 such as a retaining wall block After binding with the forcing rod chain bundle 50, additional embedding is carried out.

In the road extension, residential construction, and river maintenance, work for forming an additional embankment part in front of the existing slope has been widely practiced, and related related art is disclosed in Japanese Patent Laid-Open No. 2000-24443.

The conventional slope forward additional embankment technique including the Japanese Patent Application Laid-Open No. 2000-24443 is a method in which a covering body such as a retaining wall block is assembled in front of the existing slope, and the embankment and compaction are performed in the space between the covering body and the existing slope At this time, a steel wire or a fiber reinforcing material is buried between the cladding of the retaining wall block and the existing slope and the existing slope so as to stabilize the binding between the cladding body and the existing slope and the texture of the clay soil.

That is, when a reinforcing member such as a soil nail or an earth anchor is buried in an existing slope, the covering member such as a reinforcing member and a retaining wall block may be connected to a wire member such as a steel wire, A plurality of fiber reinforcing materials such as geogrid are embedded in the additional filler, and these fiber reinforcing materials are bound to existing slope reinforcements.

As described above, it is possible to secure the stability of the additional embankment by combining the cladding of the existing slope front embankment or the reinforcement embedded in the existing slope and the embedment fiber reinforcement. However, in the prior art, Wire or fibrous reinforcement, it is impossible to expect a sufficient reinforcement or stabilization effect.

That is, as a method of simply tying up a covering body such as a retaining wall block or a buried body such as a geogrid that forms a head of a soil nail or earth anchor buried in an existing slope, The embankment has a structural limit to be tied to a wire which can not resist external forces other than the tensile force, and thus there is a problem that sufficient bonding force can not be established between the existing slope and the additional filler.

Particularly, in the stepwise execution of the cladding structure on the front side of the additional embankment and the embankment on the back side of the covering body, unnecessary relaxation or deformation is induced in the binding wire provided in the lower layer, There is a serious construction defect that is not manifested at all.

Therefore, it is necessary to additionally construct a reinforcement body such as a soil nail or an earth anchor after the completion of the additional embankment, thereby causing serious problems such as an increase in the overall construction cost and delay of the air.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide an apparatus for connecting an existing slope and an additional clay wall to an existing slope ground, The connecting plate 30 is provided with a swash plate 31 which is in close contact with the slope surface and a standing plate 37 which is a vertical plate having a lower end joined to the front surface of the swash plate 31, And a joining plate 38 joined to the upper plate and the swash plate 31 to fix the standing plate 37 to the swash plate 31. The fixing hole 32 is formed at the center of the swash plate 31, The spherical surface 41 of the hemisphere 40 is in close contact with the fixation hole 32. The spherical surface 41 of the hemisphere 40 is in close contact with the fixation hole 32, And the standing inclusion body 10 is fixed and fixed to the fixing surface 42 of the hemisphere 40. The binding plate 39 is pierced with the binding plate 39 and the binding rod 50 One The other end of the haste is secured to 39, a coupling rod 50 has a front surface portion embankment walls connecting device, it characterized in that the coupling to the wall (20) for covering portions fill more.

A pair of hemispheres 40 are provided on the coupling portion between the coupling hole 39 and the coupling rod 50 of the rising plate 37. A spherical surface 41 is formed on the front surface of the rising plate 37, The hemisphere 40 is coupled to the swash plate 31 and the hemisphere 40 is coupled to the back surface of the standing plate 37 so that the fixing surface 42 faces the swash plate 31, And a binding rod (50) is fastened to the fixing surface (42) of the hemisphere (40) on both sides and fixed.

A winding rod 70 wound around the net 60 is connected to the other end of the connecting plate 30 of the bundling rod 50. The winding rod 70 wound around the net 60 is wound around the bundling rod 50 And a tightening plate 71 is coupled to an end of the binding rod 50 which is exposed through the winding rod 70 so as to be sandwiched between the outer peripheral surface of the winding rod 70 and the tightening plate 71, And the other end of the winding rod 70 of the netting 60 is fixed to the wall of the wall body 20 20. The slope forward clay wall connection device of claim 1,

In addition, in the slope forward embankment method using the slope forward embankment wall connecting device, the connecting plate 30 and the hemisphere 40 are attached to the head of the existing intrusion body 10 penetrated and fixed to the existing slope ground A connecting plate mounting step (S10) for fixing the inclined plate (31) of the connecting plate (30) so as to be in close contact with the ground surface of the existing slope, and a wall mounting step A binding step S22 for binding the standing plate 37 of the connecting plate 30 and the wall 20 to each other with a binding rod 50 and a bonding step S22 for forming an additional embankment between the existing slope and the wall 20 And the embankment step (S30). The slope forward embankment method using the slope forward embankment wall connection device is a slope forward embankment method.

Through the present invention, it is possible to connect the existing penetration body 10 buried in the existing slope and the additional clay wall 20 with the binding rods 50 capable of resistance to various external forces such as compression, warping and twisting, And the horizontal position of the binding rod 50 can be stably maintained through the connecting plate 30 having the swash plate 31 and the standing plate 37. [

As a result, the stability of the embankment formed further in front of the existing slope can be drastically improved, and the additional reinforcement process can be omitted after the additional embankment is constructed, so that the air can be shortened and the construction cost can be reduced.

Figure 1 is a representative cross-sectional view of an additional clay ground to which the present invention is applied
Fig. 2 is a cross-sectional view of the main part of the device of the present invention
3 is an exploded perspective view of the main part of the apparatus of the present invention
4 is a perspective view of the swash plate of the present invention,
Figure 5 is a perspective view of an embodiment of a binding rod-
Fig. 6 is an explanatory diagram of an operation method of the embodiment of Fig. 5
FIG. 7 is a flowchart illustrating the process of the method of the present invention
8 is a representative cross-sectional view of a construction state of an embodiment of the present invention in which a netting and a wind-
Fig. 9 is an exploded perspective view of the main part of the embodiment of Fig. 8
Fig. 10 is an explanatory view

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view illustrating an additional embankment to which the present invention is applied. In the illustrated embodiment, a masonry retaining wall block is applied as a wall 20 covering an additional embankment, Respectively.

That is, as shown in FIG. 1, a new slope is expanded and constructed by performing additional embankment on the front side of the existing slope in the state where a large number of existing intrusive bodies 10 are installed on the existing slope ground, A wall 20 such as a retaining wall block is constructed in a stepwise manner, and the additional embankment is constructed in such a manner that the soil is placed behind the wall 20 and on the front side of the existing slope, and compaction is performed.

In the embodiment shown in FIG. 1, the mated retaining wall block is applied as the wall 20 covering the additional filler, but in addition, the moored wall 20 such as a retaining wall panel, gabardia or Gabion or a concrete single structure retaining wall is applied It is possible.

2 and 3 illustrate a detailed structure and a connecting method of the connecting device according to the present invention. As shown in the drawing, the connecting device of the present invention includes a connecting plate 30, which is composed of a swash plate 31 and a standing plate 37 A hemisphere 40 for fixing the connecting plate 30 to the existing penetration body 10 and a connecting rod 50 for connecting the connecting plate 30 and the wall 20 to each other.

1 and 2, a connecting plate 30 is installed on the head of the existing penetration body 10 penetratingly fixed to the slope ground, and the connecting plate 30 is closely attached to the existing slope surface A rising plate 37 as a vertical plate having a lower end joined to the front surface of the swash plate 31 and a rising plate 37 joined to the upper portion of the rising plate 37 and the swash plate 31, And a joint plate 38 fixed to the swash plate 31. A fixing hole 32 is formed in the central portion of the swash plate 31 and a through hole 32 is formed in the head of the existing penetration body 10, The spherical surface 41 of the hemisphere 40 is brought into close contact with the fixing hole 32 and the ground surface 42 of the hemisphere 40 is fitted to the ground surface 42 of the hemisphere 40, 10 is fastened and fixed to the standing plate 37. A binding hole 39 is drilled in the standing plate 37. One end of the binding rod 50 made of a steel rod is fastened to the binding hole 39, 50 are bonded to the wall 20 covering the additional filler It is.

2 and 3, the connecting plate 30 of the present invention is a plate member which is fixed to the head of the existing insertion body 10 and connects the coupling rod 50 and the existing insertion body 10, And a standing plate 37 joined to the front surface of the swash plate 31 so as to be perpendicular to the surface of the swash plate 31 when the ground plate is closely contacted with the swash plate 31. The standing plate 37 The connecting rod 50 connected to the standing plate 37 can be connected to the wall 20 in a horizontal direction so that stable additional filling work can be performed and the supporting force of the built- And the additional filler can be transmitted stably.

3, the upper end of the rising plate 37 to which the lower end is joined to the swash plate 31 of the connecting plate 30 is spaced apart from the entire surface of the swash plate 31. The rising plate 37 and the swash plate 31 and the joining plate 38 is joined to the gap between the rising plate 37 and the swash plate 31 so that the angle between the rising plate 37 and the swash plate 31 is kept constant. In the embodiment shown in FIGS. 2 and 3, The joining plate 38 may be joined to both ends of the standing plate 37 as shown in Fig.

The fixation between the existing embedded body 10 and the connecting plate 30 penetrated into the existing slope ground is achieved by means of a steel hemisphere 40, as in the intensified section of FIG. 2 and the enlarged section of FIG. Wherein the hemisphere 40 is a half sphere cut in half, as in its dictionary meaning, wherein the outer surface forms a spherical surface 41, and the cuts form a fusing surface 42 And a through hole 43 penetrating the center of the fixing surface 42 in a direction orthogonal to the fixing surface 42 is formed so that the inclination of the existing inclusion body 10 and the inclination of the existing inclined surface are irregularly formed The swash plate 31 is tightly brought into close contact with the existing slope and the rigid coupling between the existing penetration body 10 and the swash plate 31 becomes possible.

2, the hemisphere 40 is coupled to the head portion of the existing intrusion body 10 which is exposed to the outside through the fixing hole 32 of the swash plate 31, and the hemisphere 40 And the spherical surface 41 of the incising plate 40 is closely contacted while sliding freely on the periphery of the fixing hole 32 of the swash plate 31. The through hole 43 of the hemisphere 40, A male screw is formed and a female screw such as a nut is fastened to fix the existing penetration body 10 to the fixing surface 42 of the hemisphere 40. [

3, the outer periphery of the front side of the fixing hole 32 punctured in the swash plate 31, that is, the outer periphery of the fixation hole 32 on the wall 20 side The contact surface between the spherical surface 41 of the hemisphere 40 and the fixing hole 32 is not sharply formed and the smooth rotation of the hemisphere 40 .

In the embodiment shown in FIGS. 2 and 3, the nut for fixing the head portion of the existing penetration body 10 having the male thread to the hemisphere 40 is configured separately from the hemisphere 40, The hemisphere 40 may be integrally formed with the female screw in such a manner that the hemisphere 40 is joined to the fixing surface 40 of the hemisphere 40 or the fixing surface 42 of the hemisphere 40 is formed with a female thread.

In the present invention, in connecting the existing slope and the wall 20 of the additional clayeye, the conventional technique of binding both sides with a wire material such as a steel wire, The connecting rod 50 is connected to the wall 20 and the head of the existing penetration body 10 penetrated into the existing slope ground where one end of the binding rod 50 is fixed to the connecting penetration plate 10 fixed to the existing penetration body 10, And the other end of the coupling rod 50 is fastened to the back surface of the wall body 20 covering the additional filler.

That is, as shown in FIG. 1 and FIG. 2, the binding rod 50 is horizontally installed as the binding rod 50 is bound to the standing plate 37, 3, a binding hole 39 is drilled in the standing plate 37, and an end of the binding rod 50 at the other side of the wall 20 is screwed and fixed to the binding hole 39. As shown in Fig.

It is necessary to finely adjust the length of the construction connecting rod 50 in the connection between the connecting plate 30 and the wall 20 through the connecting rod 50. For this purpose, The turnbuckle 51 is formed inside the turnbuckle 51 so that the extension of the entire connecting rod 50 can be expanded and contracted as the turnbuckle 51 is rotated.

The binding rod 50 can be installed horizontally through the connecting plate 30 formed with the standing plate 37. However, due to slight variations in slope inclination or irregularity of the slope surface, the binding rod 50 and the standing plate 37 ) May need to be finely adjusted.

In the present invention, as shown in Figs. 5 and 6, a pair of hemispheres 40 are symmetrically provided on the fastening portion between the fastening hole 39 and the fastening rod 50 of the standing plate 37, The angle between the binding rod 50 and the standing plate 37 can be adjusted as the spherical surface 41 of the holding member 40 is brought into close contact with the binding hole 39 and sliding.

5 and 6, the hemisphere 40 is coupled to the front surface of the standing plate 37 so that the spherical surface 41 faces the swash plate 31, and the back surface of the standing plate 37 Another semi-spherical body 40 is coupled with the fixing surface 42 facing the inclined plate 31 and a single binding rod 50 is fastened to the fixing surface 42 of the both side semi-spherical bodies 40 A male screw is formed in a single coupling rod 50 passing through the through hole 43 of the both side hemispheres 40 and a female screw nut is fastened to the fixing side 42 of the hemisphere 40 on both sides , The binding rod (50) and the standing plate (37) are bound together via a pair of hemispheres (40).

Therefore, the angle between the binding rod 50 and the standing plate 37 can be freely adjusted as shown by the imaginary line in the extracting enlarged portion of FIG. 6, and the angle of the binding rod 50 can be adjusted The rod 50 is fixed at the relevant angle by screwing the hemisphere 40 and the rod 50 together.

Through the connecting device of the slope forward embankment wall 20 of the present invention, it is possible to carry out the embankment method which stably supports the additional embankment itself as well as the wall 20 covering the existing slope front further embankment. 7, the connection plate 30 and the hemisphere 40 are joined to the head of the existing penetration body 10 penetratingly fixed to the slope ground, (S10) for fixing the inclined plate (31) of the inclined plate

In the present invention, the existing penetration body 10 is a reinforcing body such as a soil nail or earth anchor penetrated and fixed to the existing slope ground, and as shown in Fig. 7, And the connecting plate 30 is coupled to the head of the inserted existing penetration body 10 to be fixed. In the step of installing the connecting plate 10, the fixing plate or the like already bound to the head of the built- The connecting plate 30 of the present invention can be installed.

When the connection plate installation step S10 is completed, a wall installation step S21 for installing the wall 20 covering the existing slope front addition filler part and a step of installing the riser plate 37 and the wall 20 of the connection plate 30, And a binding step S22 for binding the binding rod 50 with the binding rod 50 are successively performed.

In the illustrated embodiment, the retaining wall block is applied as the wall 20 covering the additional embankment. In the wall installing step S21, the upper retaining wall block is mated with the lower retaining wall block, and in the binding step S22 And the binding rod 50 is fastened to the standing plate 37 of the connecting plate 30 fixed to the existing penetration body 10 and the back surface portion of the retaining wall block.

Particularly, in the binding step S22, after the connection between the wall 20 and the connecting plate 30 through the connecting rod 50, the turnbuckle 51 formed inside the connecting rod 50 is rotated to move the connecting rod 30 The extension and contraction of the extension 20 are adjusted so as to secure a strong coupling between the wall 20 and the existing penetration body 10.

When the binding step S22 is completed, embedding step S30 is performed to form an additional embankment between the existing slope and the wall 20, and in the case of the masonry wall 20 as in the illustrated embodiment, The above-described binding step S22 and embankment step S30 are repeated while the isochronous wall 20 is stepwise coordinated.

8 to 10 illustrate a method of connecting the wall 20 and the connection plate 30 by applying a net 60 such as geogrid to the existing slope and the wall 20, One end of the netting 60 embedded in the additional filler is fixed to the wall 20 and the other end is bound to the binding rod 50.

8 and 9, the net 60 and the bundling rod 50 are connected to each other, as shown in FIGS. 9 and 10, The stress concentration at the connection point which may be generated in direct connection between the bundling rod 50 and the net 60 and the breakage of the net 60 due to the concentration of the stress can be prevented by indirectly connecting through the winding rod 70, .

8, when the masonry wall 20 such as a retaining wall block is applied, the binding between the wall 20 and the net 60 is performed by tightly pressing the net 60 on the upper side of the lower layer wall 20, A method in which the front end of the net 60 is pressed and fixed between the upper and lower walls 20 through the weight of the wall 20 by applying the upper wall 20 to the upper surface of the net 60 is applied .

The net 60 is made of fiber or synthetic resin and can be a soft body compared to the binding rod 50. Therefore, when the binding rod 50 and the net 60 are simply joined together, (60) is likely to be broken.

Thus, in the present invention, the winding rod 70 is formed at the rear end of the net 60, and the net 60 is wound around the winding rod 70 and connected to the bundling rod 50 So that the supporting force of the existing penetration body 10 transmitted through the binding rod 50 can be uniformly distributed to the entire body 60 without being biased.

9 and 10, at the other end of the coupling plate 30 of the coupling rod 50, a winding rod 70 wound with a netting 60 is bundled, and a winding rod 70 wound around the winding body 60 The fastening bar 50 passes horizontally through the winding rod 70 and the fastening rod 50 exposed through the winding rod 70 is engaged with the fastening plate 71 so that the outer peripheral surface of the winding rod 70 The net 60 is fixed between the contact plates 71 and the net 60 spreading from the take-up stick 70 to the side of the wall 20 of the additional filler is buried in the additional filler, (70) is connected to the wall (20).

10: an intruder
20: Wall
30: Connection plate
31: swash plate
32: Settling ball
33: Activity surface
37: standing plate
38:
39: bond ball
40: hemispheres
41: spherical surface
42:
43: Through hole
50:
51: Turnbuckle
60:
70: Winding rod
71:
S10: Steps for installing the connection plate
S21: Wall installation steps
S22:
S30: Embankment stage

Claims (4)

The connecting plate 30 is installed at the head of the existing penetration body 10 penetratingly fixed to the existing slope ground, and the connecting plate 30 is connected to the existing slope surface A rising plate 37 as a vertical plate having a lower end joined to the front surface of the swash plate 31 and a rising plate 37 joined to the upper plate 37 and the swash plate 31, A fixing hole 32 is formed in the central portion of the swash plate 31 and a through hole 32 is formed in the center of the swash plate 31 so as to penetrate through the fixing hole 32, The spherical surface 41 of the hemisphere 40 is fixed to the fixing surface 42 of the hemisphere 40 in a state in which the spherical surface 41 of the hemisphere 40 is in close contact with the fixing hole 32, One end of the bundling rod 50, which is a steel rod, is fastened to the binding hole 39, and the fastening hole 39 is fastened to the fastening hole 39, The other end of the rod (50) In which binding to the wall (20) to copy the front surface wall portion fill connection,
The other end of the connecting plate 30 of the binding rod 50 is bound to the winding rod 70 wound with the net 60;
The bundling rod (50) horizontally penetrates the winding rod (70) around which the netting (60) is wound;
A tightening plate 71 is coupled to an end of the bundle rod 50 which is exposed through the winding rod 70 so that the net 60 is fixed between the outer circumferential surface of the winding rod 70 and the tightening plate 71;
The net 60 extending from the winding rod 70 toward the wall 20 of the additional embankment is embedded in the additional embankment and the other end of the winding rod 70 of the netting 60 is connected to the wall 20 Slope front clay wall connection device.
In the slope forward embankment method using the slope forward embankment wall connection apparatus of claim 1,
The coupling plate 30 and the hemisphere 40 are coupled to the head of the existing embedded body 10 penetrated into the existing slope ground so that the swash plate 31 of the coupling plate 30 is brought into close contact with the ground surface of the existing slope (S10);
A wall-installing step (S21) of installing a wall (20) covering the existing slope front additional filler part;
A binding step (S22) of binding the standing plate (37) and the wall body (20) of the connecting plate (30) with the binding rod (50);
(S30) for forming an additional embankment between the existing slope and the wall (20). The slope forward embankment method using the slope forward embankment wall connection device. delete delete

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