KR200327427Y1 - Gabion having Reinforcing Net - Google Patents

Abstract

The present invention can suppress the phenomena of the gabions in which the external exposed surface of the gabions exposed to the outside, even if the vertical and horizontal loads act on the mesh, and also allows the use of smaller aggregates than the conventional aggregates. It relates to a new structure retaining wall gabion that can be extended to the aggregate.

In the present invention is a retaining wall gabion is formed to have a hexahedron shape by a wire mesh having a mesh of a predetermined size to fill the aggregate therein to form a retaining wall, the wall surface exposed to the outside of the wall surface of the hexahedron of the gabion, In order to reinforce the wall surface exposed to the outside is provided a retaining wall gabion, characterized in that the reinforcing member having a hole of a smaller size than the mesh size of the wire mesh is further provided.

Description

Retaining wall gabion with reinforcing member {Gabion having Reinforcing Net}

The present invention relates to a retaining wall gabion provided with a reinforcing member, specifically, a retaining wall gabion filling an aggregate therein for the construction of the retaining wall, and further comprising a reinforcing member on the surface exposed to the outside, The present invention relates to a retaining wall gabion structure of a new structure which can prevent the occurrence of a batch phenomenon on the external exposed surface due to the action of a vertical load and compaction after backfilling.

In constructing retaining walls on roadsides or riversides, gabion method, that is, so-called Gabion method, has recently been applied as an environmentally friendly method. 4A and 4B respectively show side cross-sectional views of the retaining wall stepped by the conventional Gabion method and a schematic view of the gabion used in the conventional Gabion method.

In the conventional Gabion method, as shown in Figure 4b is filled with the aggregate of a predetermined size in the lattice-shaped gabion 10 produced by using a wire mesh, and the gabion 10 filled with aggregate is built stepwise or vertically to retain the wall Was formed (see FIG. 4A). Since the height of the gabion 10 commonly used at present is approximately 1.0m, for example, when building a retaining wall of 4.0m, the retaining wall should be built by loading four or more gabions 10 having a height of 1.0m.

However, when a plurality of gabions 10 are loaded in this way to build a retaining wall having a predetermined height, a load perpendicular to the gabions 10 is applied due to the self-weight, earth pressure, and the like of the aggregate filled in the gabions 10. This load eventually acts as a horizontal load on the aggregate filled in the gabion 10 located at the bottom to cause the gabion 10 to swell in the horizontal direction. In addition, another horizontal load acts on the gabion 10 due to the compaction operation or the like when the back wall portion is backfilled.

Since the horizontal force from the adjacent gabions 10 and the restraint force by the superficial earth pressure on the back of the gabions 10 act on the side adjacent to the other gabions 10 or the back of the gabions 10 among the faces of the gabions 10. The phenomenon that the gabion 10 swells due to the vertical load is suppressed.

However, the external exposed surface of the gabion 10 exposed to the outside as it does not have such a suppressive force will cause the full phenomenon of the bulge bulging to the outside of the gabion 10 to the outside. Since the hungry phenomenon of the gabion 10 causes anxiety to the viewer, it is necessary to suppress it as much as possible.

On the other hand, as the wire mesh used in the conventional gabion 10, the wire mesh made of hexagonal shape is mainly used, the wire mesh for the conventional gabion 10 has a mesh size of 80mm × 100mm in size. Therefore, the aggregate to be filled in the conventional gabion 10 having a large size of the eye as described above should have a size of about 150mm. As the aggregate of such a size is mainly used crushed rubble or natural stone, there is a lot of difficulties in supplying the standard aggregate of this size.

The present invention is proposed to overcome the problems and limitations of the conventional gabions as described above, and even if the vertical load acts on the gabions, it is possible to suppress the phenomena of the gabions in which the external exposed surface of the gabions exposed to the outside swells. In addition, it is an object of the present invention to provide a new structure retaining wall gabion that can extend the range of use of the aggregate by enabling the use of smaller aggregates than conventional aggregates.

Figure 1a and Figure 1b is a schematic view of an embodiment of the present invention, Figure 1a is an exploded view showing a state before installing the reinforcing member 2 made of a wire mesh to the gabion 1, Figure 1b is a reinforcing member (2) ) Is a coupling diagram showing the installed state.

Figure 2 is a detailed view schematically showing the mesh of the wire mesh forming a gabion of the present invention.

3 is an exploded view showing an embodiment similar to FIG. 1A in which the reinforcing member 2 is made of a composite plate.

4A and 4B are side cross-sectional views of the retaining wall stepped by the conventional Gabion method, respectively, and a schematic view of the gabion used in the conventional Gabion method.

* Explanation of symbols for the main parts of the drawings *

1: Gabion 2: Reinforcement member

3: lid

In order to achieve this purpose, the present invention is a retaining wall gabion that is formed to have a hexahedron shape by a wire mesh having a mesh of a predetermined size to fill the aggregate therein to form a retaining wall, wherein the outer wall in the wall of the hexahedron The wall surface exposed to the retaining wall gabion is further provided with a reinforcing member having a plurality of through holes made smaller in size than the mesh size of the wire mesh to reinforce the wall surface exposed to the outside.

In addition, in the present invention as a preferred embodiment of the gabion, the wire mesh constituting the gabion is made of a wire mesh having a mesh size of 80mm × 100mm; The reinforcing member is provided with a gabion for retaining wall, characterized in that made of a wire mesh having a mesh smaller than the size of the mesh of the gabion wire mesh.

In the present invention, as a specific embodiment, the gabion for retaining wall is provided, characterized in that the reinforcing member is made of a crimp net having a square mesh of 50 mm x 50 mm.

In addition, in another embodiment of the present invention, there is provided a retaining wall gabion, characterized in that the reinforcing member is made of a composite plate having an opening smaller than the mesh size of the gabion wire mesh.

Next, with reference to the accompanying drawings will be described the configuration and effect of the present invention.

Figure 1a and Figure 1b is a schematic view of an embodiment of the present invention, Figure 1a is an exploded view showing a state before installing the reinforcing member 2 made of a wire mesh to the gabion 1, Figure 1b is a reinforcing member (2) ) Is a coupling diagram showing the installed state.

As shown in the figure, the gabion 1 according to the present invention has a hexahedral shape. The upper surface of the hexahedral gabion (1) is composed of a lid portion 3, the bottom surface of the gabion (1), assembled by standing up the four sides, the filling part therein and finally the lid portion (3) closes.

In the embodiment shown in the figure, the gabion 1 has a rectangular parallelepiped shape. However, the gabion 1 according to the present invention is not limited to the rectangular parallelepiped shape as described above, and may be modified. On the other hand, in the embodiment shown in the drawing, although the partition is not provided in the center, it may be provided with a partition wall made of a wire mesh in the center as in the conventional gabion. That is, when the length of the gabion 1 (the length in the direction of arrow A in FIG. 1A) is long, a plurality of partitions may be provided.

The gabion (1) is produced using a wire mesh made of galvanized iron wire, it is preferable that the mesh shape of the wire mesh is produced using a wire mesh made of hexagonal. Figure 2 shows in detail the mesh of the wire mesh constituting the gabion (1).

In the present invention, out of the walls of the gabions (1) as described above, the surface facing the neighboring gabions or the surface facing the rear soil sediment, which is visible on the outside, that is, the outer exposed surface is smaller than the wire mesh of the gabions (1) A reinforcing member 2 having a hole of a size is provided. The reinforcing member 2 is inserted inside the outer exposed surface of the wall surface of the gabion 1 to bind with the wire mesh of the gabion 1.

In the embodiment shown in Figs. 1A and 1B, a wire mesh having a square mesh is used as the reinforcing member 2. As the wire mesh used as the reinforcing member 2, wire meshes of various standards may be used. For example, crimp wire meshes manufactured according to Korean Industrial Standard KS D7015 and having square mesh eyes may be used.

As a preferred embodiment of the present invention, the gabion 1 is made of a wire mesh having a mesh size of 80 mm × 100 mm (see FIG. 2), and the reinforcing member 2 is made of a crimp wire mesh of a square mesh having a mesh size of 50 mm × 50 mm. You can also make. However, the size and shape of the mesh of the gabion 1 in the present invention is not limited to the above-exemplified embodiment. In addition, the wire mesh used as the reinforcing member (2) in the present invention is not limited to the crimp wire mesh, and can be used as the wire mesh for the reinforcing member (2) if it has a smaller mesh than the mesh size of the gabion (1). . Figure 3 shows a view similar to Figure 1a, the reinforcing member (2) is not only the crimped wire mesh as previously illustrated, but also, as shown in Figure 3, a composite material such as a plastic having a plurality of holes of a predetermined shape, such as It can be composed of plates.

As described above, after installing the reinforcing member (2) in the gabion (1), the filling aggregate is filled in the gabion (1) in accordance with the retaining wall construction standards, and covers the upper lid portion (3). Thus, the gabion (1) filled with aggregate is continuously made and laminated to continue the construction of the retaining wall.

As described above, in the gabion 1 according to the present invention, since the reinforcing member 2 is additionally installed on the exposed surface visible from the outside instead of the surface contacting the rear soil or the neighboring gabion 1, such a gabion 1 Even if the vertical load or the direct horizontal load is applied in the state filled with aggregate), it is suppressed that the bulging phenomenon that the external exposed surface of the gabion (1) swells.

In addition, in the present invention, the reinforcing member 2 is smaller than the size of the wire mesh of the gabion (1) wire mesh, so that the surface on which the reinforcing member (2) is installed is the hole of the reinforcing member (2) and the gabion ( 1) The meshes of the wire mesh overlap, and as a result, the size of the meshes through which the inside and the outside of the gabion 1 pass is reduced. Therefore, even when the aggregate filled in the gabion 1 is relatively small, it is possible to prevent the aggregate from escaping through the mesh.

Therefore, the gabion 1 of the present invention having the reinforcing member 2 installed as described above can use a smaller aggregate as a filling material than in the case of the conventional gabion, and thus the supply and demand of the aggregate is made easier so that the material cost and the construction cost can be increased. You can save.

Claims (3)

As a retaining wall gabion (1), which is manufactured to have a hexahedron shape by a wire mesh having a mesh of a predetermined size and fills aggregate therein to form a retaining wall, On the wall surface exposed to the outside of the hexahedron wall of the gabion (1), the reinforcing member (2) having a plurality of holes smaller than the size of the mesh of the wire mesh to reinforce the wall surface exposed to the outside is more Retaining wall gabion, characterized in that it is provided. The method of claim 1, The wire mesh forming the gabion (1) is made of a wire mesh having a mesh size of 80 mm × 100 mm; The reinforcing member 2 is a retaining wall gabion, characterized in that made of a wire mesh having a mesh smaller than the mesh size of the gabion (1). The method of claim 2, The reinforcing member 2 is a retaining wall gabion, characterized in that consisting of a crimp net having a square mesh of 50mm × 50mm.