KR102285449B1 - breakwater provided with single layer block that strongly resists buoyancy - Google Patents

Abstract

In the present invention, a second block made of concrete having a L-shaped cross section on a first block made of concrete having a L-shaped cross section is placed on the slope as a unit so that half of it is overlapped in plan view, A plurality of units form a row group and are arranged side by side in the inclined direction of the slope in such a way that the standing wall of the first block constituting one unit overlaps the standing wall of the second block in half, and It relates to the breakwater covered on the slopes at regular intervals in the horizontal direction.

Description

Breakwater provided with single layer block that strongly resists buoyancy}

The present invention relates to a breakwater having a single-layer coating block, which is a sofa block strong in buoyancy.

Sofa block, which is a covering block applied to breakwater, disperses or dissipates wave energy and is installed in a place that receives large waves from breakwaters or shorelines for the purpose of reducing reflected waves. say

As a conventional sofa block, a tetrapod formed in the shape of four horns has been most used as a radial sofa block, and Dolos, sealock, etc., which are modified tetrapods, are also being used a lot recently.

A tetrapod is a concrete molded block used instead of a clad stone for a wave sofa. It is formed in the shape of four horns, and as shown in FIG. play a role Developed in 1949 by Neyrpic of France, this concrete deformable block has the following characteristics.

① Since the coating layer has a rough surface and has good transmittance (empty 50%), it reduces wave pressure, wave climbing, and reflected wave to reduce wave energy.

② Blocks are interlocked and can be used for the construction of stable steep slopes.

③ The center position of the block is low and the stability is good, so the weight can be lightened compared to the concrete block.

④ No special attention is required in construction.

In particular, the tetrapods are covered with a single or double layer on the slope of the breakwater, or a plurality of tetrapods are densely formed when constructing a coastal erosion structure such as Jamje to form a single structure. A breakwater or river bed formed by stacking tetrapods disperses or dissipates wave energy by the interstitial space between adjacent tetrapods, the uneven shape of the tetrapod itself, and their interlocking.

The sofa block should have sufficient stability against wave force, have sufficient structural strength against external force or self-weight, be easy to lift and construct, and be able to obtain an appropriate porosity when laminated to attenuate wave energy, etc. requirements are required.

Most of the methods for mounting the sofa block include a multi-layer coating that requires a large amount of block or a 1.5-layer coating implemented by an acropode, a core-loc, or the like.

The breakwater implemented by the sofa block is currently being built with a larger wave height as the design wave height due to climate change.

However, when a long-period wave invades moisture, the rise increases, and at this time, the buoyancy force acts on all of the conventional sofa blocks covered on the slopes, so that the sofa blocks existing in the upper layer are interlocked with the lower blocks even though they are interlocked. The conventional sofa block has the problem of floating in the anti-gravity direction from the lower block.

The present invention has a problem in solving the above problems.

In the present invention, the second block made of concrete having a L-shaped cross section on the first block made of concrete having a L-shaped cross-section overlapped in half in a plan view as a sofa block and a single-layer cladding block. In such a way that the standing wall of the first block constituting the one unit overlaps the standing wall of the second block in half, a plurality of units form a row group and are side by side in the inclined direction of the slope. It is possible to solve the above problems by disposing and providing a breakwater coated on the slopes at regular intervals in the single row group in the horizontal direction.

The present invention is a single-layer coated block that leans on a L-shaped block and has 1/6 of the slope of the slope interposed on the L-shaped block, but 1/6 of the total weight is directly overlapped, greatly increasing the stability of the single-layer covering block. , regardless of the interlock between blocks, it is mainly combined by weight, so it provides the effect of reducing the possibility of destruction of the single-layer clad block due to buoyancy in the anti-gravity direction by long-period waves, that is, the block shape is a simple shape rather than a deformed one. As a result, it is possible to provide a single-layer coating block that can be easily manufactured even when its own weight of 100 tons or more is required, and it is possible to construct a breakwater by reducing the amount of blocks compared to the prior art, thereby reducing the manufacturing cost of the breakwater compared to the prior art. can

1 is a view showing a sofa block, which is a conventional covering block;
2 is a perspective view, a plan view, a front view, and a side view showing a single-layer coating block that is a sofa block as a unit of this embodiment;
3 is a side view showing a state in which the single-layer coating blocks of FIG. 2 are coated on the slope;
4 is a plan view showing a state in which the single-layer coating blocks of FIG. 1 are coated on the slopes, and
Figure 5 is a perspective view showing a state in which the single-layer coating blocks of Figure 1 are coated on the slope.

Hereinafter, 'breakwater having a single-layer coating block strong in buoyancy' according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 5 .

In Fig. 2, one unit of a single-layer-covered sofa block, which is a sofa block to be covered on the slope, is indicated by the reference numeral 100.

The one unit 100 is a first block 10 made of concrete with 1/4 cut out from the cube to have a L-shaped cross section, and a second block 10 made from concrete with 1/4 cut out from the cube to have a L-shaped cross section. Including the block 20, the horizontal portion of the L-shaped bent portion 21 formed in the second block 20 on the horizontal portion of the L-shaped bent portion 11 formed in the first block 10 is half in plan view To overlap, the second block 20 is stacked on the first block 10 and coupled by its own weight. The first and second blocks 10 and 20 have the same size, weight and shape.

A plurality of units 100, as shown in FIGS. 3 to 5, are placed on the slope 1 constructed adjacent to the seabed 2 of the coast in rows and columns.

In order for the plurality of units 100 to be placed on the slope 1 in stable rows and columns, on the seabed 2 adjacent to the lower end of the slope 1, at the seabed 2 The triangular-shaped brace 3 with the top protruding upward is constructed by pouring concrete, and the top end of the slope 1 has a flat top end face 4 .

One row group 100A placed on the slope 1 with a plurality of the single unit 100 is the L-shaped bent part 11 among the wall parts of the first block 10 of one unit 100 . ) with its back on the L-shaped bent part 21 among the wall parts of the second block 20 of another unit 100 adjacent to the standing wall 12 facing the sea floor 2 Doedoe half overlapping on the right standing wall 22, successively in the direction of the inclined line of the slope 1 in such a way that the L-shaped bent portion 11 and the L-shaped bent portion 21 overlapped in parallel with each other arranged and placed on the slope 1 .

When the one column group 100A is arranged as described above, as shown in FIGS. 4 and 5 , one side is spaced at a predetermined interval along the inclined line of the slope 1 in the vertical direction, that is, in the direction of gravity. The open L-shaped space portion S1 is formed in a row, and on the other side, the L-shaped space portion S2 opened in the vertical direction, that is, in the gravity direction, at regular intervals along the inclined line of the slope 1, is It is formed by heat.

The standing wall 12 of the first block 10 of one unit 100 disposed at the bottom among the plurality of units 100 constituting the one column group 100A is the brace 3 . is in contact with the hypotenuse 3a on one side of the one side of the heat group 100A is supported by the brace 3 so that it does not slide to the seabed 2 and is placed on the slope 1 stably do.

The single row group 100A is formed in plurality and is placed on and covered by the slope 1 at regular intervals in the horizontal direction to be constructed as a breakwater.

When the one unit 100 is viewed in a plan view, the horizontal length and the vertical length of the one unit 100 are each 1.50 m, the height of the one unit 100 is 1.00 m, and a plurality of The horizontal spacing of the column groups 100A of The porosity of the breakwater constituted by the plurality of heat groups 100A is 42%.

One unit 100 constituting the breakwater constructed as described above is a single-layer covering block in the form of leaning on the L-shaped block and interposed with 1/6 of the slope, but 1/6 of the total weight is directly overlapped. In this case, the stability of the single-layer coated block is greatly increased, and since it is a type mainly combined by weight regardless of the interlock between the blocks, the effect of reducing the possibility of destruction of the single-layer coated block due to buoyancy in the direction of anti-gravity caused by a long period wave Since the block shape has a simple shape rather than a deformed shape, it is possible to provide a single-layer coated block that can be easily manufactured even when its own weight is more than 100 tons. Therefore, it is possible to reduce the manufacturing cost of the breakwater compared to the prior art.

1: slope, 2: seabed, 3: brace, 3a: hypotenuse, 4: ceiling section, 10: 1st block, 11: B-shaped bend, 12: standing wall, 20: 2nd block, 21: L-shaped bend , 22: standing wall, 100: one unit, 100A: one column, S1: L-shaped space, S2: L-shaped space

Claims (4)

The first block 10 made of concrete with 1/4 cut out from the cube to have a L-shaped cross-section and 1/4 cut from the cube to have a L-shaped cross-section and made of concrete to have the size of the first block 10, The second block 20 having the same size, weight and shape as the weight and shape is included as one unit 100, which is a single-layer coating block,
The horizontal portion of the L-shaped bent portion 21 formed in the second block 20 on the horizontal portion of the L-shaped bent portion 11 formed in the first block 10 overlapped in half in a plan view, so that the second block (20) is laminated on the first block (10),
A plurality of one unit 100 is placed on the slope 1 built adjacent to the seabed 2 of the coast in columns and rows,
One row group 100A placed on the slope 1 with a plurality of one unit 100 is the L-shaped bent part 11 among the wall parts of the first block 10 of one unit 100 . ) with its back on the L-shaped bent part 21 among the wall parts of the second block 20 of another unit 100 adjacent to the standing wall 12 facing the sea floor 2 Doedoe half overlapping on the right standing wall 22, successively in the direction of the inclined line of the slope 1 in such a way that the L-shaped bent portion 11 and the L-shaped bent portion 21 overlapped in parallel with each other arranged and placed on the slope (1),
The single row group 100A is formed in plurality and is placed and covered on the slope 1 at regular intervals in the horizontal direction,
On one side of the one row group 100A, the L-shaped space part S1 opened in the gravitational direction at regular intervals along the inclined line of the slope 1 is formed in a row, and on the other side, the slope 1 ) Breakwater having a single-layer coating block strong in buoyancy, characterized in that the L-shaped space portion (S2) opened in the direction of gravity at regular intervals along the inclined line is formed in a row. delete The method of claim 1,
In order for the plurality of units 100 to be placed on the slope 1 in stable rows and columns, on the seabed 2 adjacent to the lower end of the slope 1, at the seabed 2 The triangular-shaped brace 3 with the top protruding upwards is constructed by pouring concrete, and the upper end of the ceiling surface 4 is flatly constructed at the top of the slope 1,
The standing wall 12 of the first block 10 of one unit 100 disposed at the bottom among the plurality of units 100 constituting the one column group 100A is the brace 3 . Breakwater having a single-layer coating block strong in buoyancy, characterized in that it is in contact with the hypotenuse (3a) on one side of the buoyancy and is supported. The method of claim 1,
A breakwater having a single-layer coating block strong in buoyancy, characterized in that the porosity of the breakwater composed of a plurality of single thermal groups (100A) of the breakwater is 42%.

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