KR20040073639A - retaining wall structure using rope or wire - Google Patents

Abstract

PURPOSE: A structure of a retaining wall using a rope or a wire is provided to apply the retaining wall to various kinds of geological features by absorbing deformation caused by stones contained in the soil with the rope and to reduce risks by corrosion. CONSTITUTION: A structure of a retaining wall using a rope(20) or a wire is composed of blocks(10) layered plurally; a connecting member(40) for firmly fixing adjacent blocks; a slide preventing member(30) positioned in the rear side of the block and covered and fixed by sand; and the rope for connecting the blocks and the slide preventing members. The slide preventing member comprises a hanging sill for hanging and fixing the rope and a rope groove for firmly fastening the rope. The connecting member for linking and fixing the blocks horizontally arranged adjacent to each other has connecting member bodies inserted into connecting member holes of the adjacent blocks and a combining pin for joining the connecting member bodies.

Description

Retaining wall structure using rope or wire}

The present invention relates to a structure of a retaining wall, and more particularly, to a structure for supporting a retaining wall using a rope or a wire.

Block retaining walls are constructed on roadside slopes, banks, and landscaping walls only. Block retaining walls consist of concrete, brick or stone blocks that form the front face, and earth and sand that fill the rear side of the block. The block is here to prevent the soil from being pushed forward.

By the way, when the retaining wall is stacked vertically high, it is impossible to support the load of the earth and sand acting on the upper side and the block rear side only by the binding force between the blocks. A mesh grid has been used to stabilize the retaining wall structure, and a bar grid 100 shown in FIG. 1 to compensate for the disadvantages of the mesh grid is disclosed in Korean Patent Publication No. 2002-0034546. Reinforcing structure of the retaining wall using the bar-grid (100) is a block 101, a rolling prevention member (not shown) fixed by the soil (not shown) behind the block 101, and the block 101 It has a bar-grid (100) for connecting the rolling prevention member (not shown). The bar grid 100 connecting the block 101 and the rolling preventing member (not shown) is fixed by the pin 102 and has a horizontal bar 110 connecting the bar grid 100.

However, such bar grids mostly use a metal such as steel, and there is a risk that the retaining wall structure may collapse over time due to corrosion due to oxidation of the metal. In addition, when there are a lot of stones such as rubble in the soil to press the bar grid, there is a problem that the grid is deformed by the stone in the process of laying the grid and covering the soil to press the soil.

The present invention has been made to solve the above problems, and to reduce the risk of corrosion, it is an object of the present invention to provide a structure of a retaining wall that can be used regardless of the type of soil is installed.

Other objects and effects of the present invention will be understood from the detailed description of the invention and the accompanying drawings.

1 is a conventional retaining wall structure

2 is a first combined perspective view of an embodiment according to the present invention

3 is a perspective view of a block in FIG.

4 is a front view of the rope of FIG.

5 is a perspective view of the anti-roll member in FIG.

6 is a second perspective view of the rolling prevention member as an embodiment according to the present invention;

7 is a third perspective view of the rolling prevention member as an embodiment according to the present invention;

8 is a front view of the connecting member of FIG.

9 is a second combined perspective view of an embodiment according to the present invention;

* Description of Major Symbols in Drawings *

10: block 20: rope

30: rolling prevention member

The present invention for solving the above problems, a plurality of stacked blocks; A connection member for firmly fixing the block adjacent to the block; Located in the back of the block, and the anti-roll member buried by the earth and fixed; It has a rope connecting the block and the anti-roll member.

The block has a connection groove for connecting with the rope; It has a connecting member hole into which the connecting member is inserted.

The anti-roll member is a locking step for fixing the rope by hanging; It has a rope groove for fixing the rope more firmly.

The connecting member is for connecting and fixing the blocks arranged adjacent to each other in a horizontal direction, each connecting member body inserted into the connecting member hole of the adjacent block; It has a coupling pin for coupling the connecting member body.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing a first coupling of an embodiment according to the present invention, and the present invention connects blocks 10 stacked horizontally and vertically to support earth and sand, and blocks 11 and adjacent blocks 11. The connection member 40 for fixing it more firmly, the anti-roll member 30 positioned on the rear surface of the block 10 and buried in earth and sand, and the anti-roll member 30 and the block 10. It has a rope 20 to connect.

3 is a perspective view of the block in FIG. 2, the block 10 is a unit for building by stacking the desired height and width, the lower surface (not shown) and the upper surface 12 is flat so as to be more firmly stacked. In addition, the front surface 16 is a surface exposed when the retaining wall is stacked, and may form a pattern or a shape in consideration of aesthetics. On the other hand, the block 10 has a groove 18 on one side, which is for connecting a rope (20 in FIG. 2) to the block 10, and penetrates the upper surface 12 and the lower surface (not shown). It has a connecting member hole 19 to.

FIG. 4 is a front view of the rope of FIG. 2, and the rope 20 may use steel in consideration of strength, or may use a synthetic resin having sufficient toughness and rigidity. The use of steel as a material of the rope 20 has the advantage of having a higher rigidity than when using a synthetic resin, but there is a risk of corrosion in a humid place, and when using the rope 20 using a synthetic resin compared to steel It has the advantage of superior flexibility and the risk of corrosion can be eliminated, but it is less rigid than steel. In this case, it is preferable to selectively use these in consideration of the environment in which the retaining wall is installed.

5 is a perspective view of the sliding member, the rolling member 30 has a locking jaw 32 for hanging the rope (20 of Figure 2), a rope groove for seating more firmly than the rope 20 Has 34. The anti-rolling member 30 is for supporting the block 10 through the rope 20, and may be manufactured in various shapes as shown in FIGS. 6 and 7.

FIG. 8 is a front view of the connecting member of FIG. 2, and the connecting member 40 includes connecting member bodies 42a and 42b mounted on the respective block (10 of FIG. 2) connecting member holes 19. It has a connecting pin 44 for engaging and fixing the connecting member body (42a) (42b).

9 is a perspective view of a second coupling of an embodiment according to the present invention, in which the embodiment combines the blocks in a different manner from FIG. 2 using the rope 20, and the adjacent blocks 10 and 10 are ropes. 10 illustrates a structure coupled through the connection member 40.

Hereinafter, a preferred installation method of the embodiment according to the present invention will be described in more detail with reference to FIG.

First, before the stacking of the retaining wall is carried out as much as the width to be installed, the blocks 10 are successively stacked on the bottom layer. Subsequently, the rope 20 is hooked to the groove 18 of the block 10, and the rope 20 is pushed against the block 10 of the locking jaw (32 in FIG. 5) of the anti-rolling member 30 fixed to the earth and sand. The prevention member 30 is connected to each other. In the process of hanging the rope 20 on the locking jaw 32 of the rolling prevention member 30, the rope 20 is first seated in the locking groove 34 of the rolling prevention member 30, After passing through the inside is fixed to the locking jaw (32). Rope 20 is fixed by the above process is to connect the block 10 and the rolling prevention member 30 more firmly than the conventional method.

Each block 10 fixed to the rolling prevention member 30 by the above method is coupled to the adjacent block 10, the connecting member body (42a of FIG. 8) of the connecting member of the block 10 The insertion member body 42b corresponding to the connecting member body 42a and inserted into the hole (19 of FIG. 3) is inserted into the adjacent connecting member hole 19 to be mounted. And by coupling the connecting member body (42a, 42b) through the connecting pin 44, each block 10 is more firmly fixed.

Then, after covering the soil over the rope (20) connecting the block 10 and the anti-roll member 30, cover the rope (20) and the anti-roll member (30) with earth and compacted using a compactor (not shown) do. In the compaction process as described above, the embodiment according to the present invention eliminates the concentration of stress applied to the rope 20 by absorbing the pressing of the stones 20 even if the size of the stones in the soil is relatively large. It can be, by connecting the block 10 and the anti-roll member 30 using the rope 20 has the advantage that even in the soil containing a large number of stones can be used unevenly.

On the other hand, if the above-described process has a sufficient strength that the retaining wall does not collapse, it is preferable not to connect the rope 20 to each stage of the block 10, but to selectively install every several stages.

As described above, the stone contained in the soil has conventionally concentrated stress on the bar grid, causing the breakage of the bar grid. However, the retaining wall structure using the rope according to the present invention is modified by the stone contained in the soil. Due to its absorption, the retaining wall structure can be applied to a wider variety of lipids. In addition, since the stones included in the soil are used without being picked out, there is an advantage of increasing the efficiency of the work by shortening the process of picking out soil during the construction of the retaining wall.

In addition, by selecting the material of the rope or wire according to the environment where the retaining wall is installed, the rope using synthetic resin is used in the place where the risk of corrosion is high, and the steel rope is used in the environment where higher rigidity is required. There is an advantage.

In the related art, the retaining wall structure is completed by connecting the block and the rolling prevention member. However, in the present invention, the retaining wall having a more rigid structure can be constructed by combining the block and the adjacent block through the connecting member.

Claims (3)

A plurality of stacked blocks; A connection member for firmly fixing the block adjacent to the block; Located in the back of the block, and the anti-roll member buried by the earth and fixed; Rope connecting the block and the rolling prevention member Retaining wall structure using a rope or wire including The method according to claim 1, The anti-roll member is a locking step for fixing the rope by hanging; Rope groove for fixing the rope more firmly Retaining wall structure using a rope or wire including The method according to claim 1, The connecting member is for connecting and fixing the blocks arranged adjacent to each other in a horizontal direction, Each connecting member body inserted into the connecting member hole of an adjacent block; Coupling pin to couple the connecting member body Retaining wall structure using a rope or wire including