KR20110099846A - Revetment block - Google Patents

Abstract

The present invention relates to a bank block, the bank block 100 to be installed on the inclined slope (S) of the river, the first wire 10 is arranged laterally with a predetermined interval and the first wire (10) Small blocks arranged at intervals where the second wire 20 and the first wire 10 and the second wire 20 intersect each other in a lattice form are formed and arranged at intervals of concrete. 30), and when the small block corresponding to the edge of the small block 30 is formed, characterized in that it comprises a connecting ring 40, one side is embedded from the side bar, the embankment block is a small block is arranged laterally It is formed at the intersection of the first wire and the second wire arranged in the longitudinal direction, each of which is formed in the form of a plurality of connected, one side of the small block corresponding to the edge of the small block having a plurality of small blocks formed to have a connecting ring Connect blocks by unit As a construction, the construction is very fast, and the first wire and the second wire connecting and supporting the small blocks increase the adhesion of the small blocks to the slopes on which the blocks are installed, thereby achieving stable construction.
In addition, the vegetation space formed between the small blocks can be filled with soil to make the role of the vegetation space of the plant enough to form a river-friendly bank embankment, as well as easy drainage to prevent the loss of the embankment as a ground subsidence It can work.

Description

Dike block {Revetment block}

The present invention relates to a dike block that is constructed on an inclined dike of a river, and more specifically, to manufacture a plurality of blocks by one unit to shorten the air according to the connection installation work of the block, and minimize the loss of the block It is possible to, and smooth drainage, as well as to the dike block to facilitate vegetation.

Generally, sloped slopes, such as banks of rivers along which waterways continue, are provided along slopes or riverbanks, along with slopes (also called lake banks).

The installation of the dike block is primarily for the purpose of preventing the loss of the dike. In the past, conventional gabions, which are easily drained, were installed but are rarely used at present.

In general, such a slope is to be built while keeping a block made of a predetermined thickness on the surface of the inclined dike in a constant flat form to withstand external pressure such as flooding. Accordingly, the size of the block is about 150 mm in thickness and 1000 mm in width and 800 mm to 1000 mm in length to make it large, so that the loss and weight of the block is prevented.

As shown in FIG. 1, the conventional embankment block 101 is a rectangular body having a thickness t, and a smaller rectangular protrusion 102 is formed at the center of the upper surface to prevent slippage. On both sides of the block 101, grooves 103 are formed to combine the blocks with each other, and thus the combinations can be combined in a zigzag form.

In constructing the bank block 101 in an inclined bank, the block 101 unloads a plurality of blocks from the bank by a transport vehicle such as a forklift truck. The ground on which the unloaded block is located while the block is unloaded is generally constructed from the lower part of the bank by forming a hard and evenly grounded surface and then laying and laying the nonwoven fabric.

The lower part of the dike is constructed by alternately constructing the blocks sequentially with one side of the base block as the lower end reference point while the lower part of the dike inclined to the base block (not shown in the drawing) is constructed.

In the state in which the above blocks are constructed, each block as a whole can protect the embankment against the external pressure received from the outside in the combined state, but there are the following problems.

In general, each block is manufactured to a high weight in order to prevent loss due to external pressure, so most of the equipment is used to move the block to the desired position, but for precise combination, the operator manually modifies the block manually. There was a disadvantage that it takes a lot of time to work while moving the position while moving.

In addition, the combination of the above blocks is only a combination of blocks made of concrete material is not natural friendly because there is no space for various plants to grow naturally, and since the drainage is very late, the submerged blocks are lifted from the soft ground. This occurs, and the lifting of these blocks gradually causes a problem of losing the blocks.

The present invention has been invented in view of the above-described conventional problems, and by manufacturing a plurality of blocks by one unit to shorten the air according to the connection installation work of the blocks, and to minimize the loss of the blocks, Smooth drainage, of course, the purpose is to facilitate the vegetation.

According to the present invention for achieving the above object, in the embankment block is constructed on the slope of the river,

The embankment block may include a first wire arranged laterally at a predetermined interval, a second wire arranged in a lattice form with respect to the first wire, and concrete at a point where the first wire and the second wire cross each other. Small banks are formed and arranged at intervals with water, and a levee block is provided, including a connecting ring one side is embedded from the side when forming a small block corresponding to the edge of the small blocks.

The embankment block according to the present invention has a shape in which a plurality of small blocks are formed at the intersections of the first wires arranged laterally and the second wires arranged in the longitudinal direction and connected to each other. By connecting and constructing one bank block formed by a plurality of small blocks per unit, the construction is very fast, and the first wire and the second wire connecting and supporting each small block are small blocks on a slope on which blocks are installed. It improves the adhesion of the machine and realizes stable construction.

In addition, the vegetation space formed between the small blocks can be filled with soil to make the role of the vegetation space of the plant enough to form a river-friendly bank embankment, as well as easy drainage to prevent the loss of the embankment as a ground subsidence It can work.

1 is a perspective view showing a conventional embankment block,
Figure 2 is a perspective view of the embankment block of the present invention,
3 is a plan view showing a dike block according to the present invention;
4 is a plan view illustrating a combined state of the embankment block according to the present invention;
5 is a longitudinal cross-sectional view showing a state in which the embankment blocks are interconnected in FIG.
6 is a cross-sectional view showing a first wire and a second wire penetrating the inside of the small block constituting the embankment block according to the present invention;
Figure 7 is a cross-sectional view showing an example of the intersection of the first wire and the second wire penetrating the inside of the small block constituting the embankment block according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 2 to 7.

In the bank block is constructed on the slope S of the river,

The embankment block 100, the first wire 10 is arranged laterally with a predetermined interval,

The second wire 20 arranged in a lattice shape with respect to the first wire 10 and the first wire 10 and the second wire 20 at the intersection of the concrete with a space between each It comprises a small block 30 is molded and arranged, and the connecting ring 40 is one side is embedded from the side when forming the small block corresponding to the edge of the small block 30.

Among the small blocks 30 constituting the levee block 100, the connecting ring 40, which is embedded at the edge of the small block 30, corresponds to each of the small blocks 30 in an overlapping state with the levee block side connecting rings. It is preferable to determine the embedding position of the connecting ring so as to have the thickness of the same line to be molded.

When explaining the embedding position of the connecting ring in detail, the small block 30 corresponding to the two sides of the edge side of the embankment block 100 forming an overall rectangular shape and the small block 30 corresponding to the other two sides The embedding position of the ring 40 is to be embedded at the position biased up and down with respect to the thickness center of the small block.

The cross of the first wire 10 and the second wire 20 is alternately alternately crossed in a mesh form as shown in FIG. 7 so that the small block 30 is formed at the intersection of the wires to form the embankment block. It may be formed.

The small blocks 30 have vegetation spaces 31 and 32 formed between the small blocks according to the shape of the small blocks 30. The plant native space 31 is formed in a quadrangular shape in the drawing, but may be formed in any one of a circle, a triangle, and a polygon according to the edge shape of the small block.

In the figure, reference numeral B denotes a fixing bolt and reference numeral N denotes a nut.

The embankment block 100 of the present invention configured as described above alternates the connecting ring 40 provided at the edge of the small block as shown in FIG. 5 attached to the slope S on which the bank embankment is formed. In the state in which the connecting ring 40 is positioned in the form, that is, the edges of the mound blocks 100 for each unit are placed in a butting manner, connecting them as fixing bolts B and nuts N respectively. By combining the embankment blocks as shown in FIG. 4, the embankment can be formed.

The first wire 10 and the second wire 20 supporting each of the small blocks 30 at predetermined intervals in combination with the embankment block 100 are embankments that conform to the corners of the inclined slope S. When the block is positioned, each of the small blocks 30 may be bent while having a sense of unity in the curved corner portion of the first wire 10 portion therebetween with respect to its own weight.

This point is much easier than the bending of the existing dike block that is constructed in combination.

Therefore, the connection construction of the embankment block 100, which has already been manufactured and transported in the unit of production, has an advantage that the air is very fast as compared to the workability of the existing embankment block combining each block one by one.

On the other hand, in each of the combined embankment block 100, between the small blocks 30 (between the first and second wires except the small block and the edge space according to the shape of the small block) vegetation space 31 (32) is secured so that the soil can be filled artificially or over time, and the plants can grow naturally, thus creating a more natural environment than conventional dikes combined with a single concrete product.

10: first wire 20: second wire
30: Small blocks 31, 32: Plant native space
40: link 100: embankment block
S: slope

Claims (4)

In the bank block is constructed on the slope S of the river,
The embankment block 100,
A first wire 10 arranged laterally at a predetermined interval,
A second wire 20 arranged to intersect in a lattice form with respect to the first wire 10,
Small blocks 30 are formed and arranged at a point where the first wire 10 and the second wire 20 intersect with concrete, respectively;
Embankment block, characterized in that it comprises a connecting ring 40, one side is embedded from the side when forming the small block corresponding to the edge of the small block (30). The method of claim 1,
Embankment block, characterized in that the intersection of the first wire (10) and the second wire (20) are alternately crossed in a mesh form. The method of claim 1,
The small block 30 is embankment block, characterized in that the plant native space 31, 32 is formed between the small blocks according to the shape to be formed. The method of claim 3,
The plant native space 31 is embankment block, characterized in that formed in the shape of any one of a circle, a triangle, a square, a polygon.

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