KR20100034355A - Breakwater and seawall having supporting balock - Google Patents

Abstract

PURPOSE: A support block of a wave-proof structure, and a seawall and a breakwater using the same are provided to reduce construction time and costs, and to prevent a coating block from being slid. CONSTITUTION: A support block(100) of a wave-proof structure comprises slopes(101,102). The bottom surface of the support block is wider than the top surface. The slopes are inclined in an opposite direction. The support block is formed in a trapezoid shape. Through holes(103) are formed in the slopes of the support block.

Description

Support block of breakwater structure, breakwater and shelter using it {BREAKWATER AND SEAWALL HAVING SUPPORTING BALOCK}

The present invention relates to the port technical field, and more particularly, to a support structure of the cladding portion 20 of the implosion structure.

An inner wave structure is a generic name including a breakwater for protecting the inner port from the blue waves of the outer port, and a shelter for protecting the beach structure from the blue waves.

The upper structure of the implosion structure is installed on the concrete structure, which is to prevent the overwhelming wave of the invasive wave, the height (floor height) is the importance of the rear area, the purpose of use, the height of the invasion wave, design It is determined by considering the water level, etc., and the height becomes very large when the wave is large or the tide difference is large.

In addition, since a predetermined weight is required to ensure stability from wave action, it is generally a large structure.

1 shows a conventional inclined breakwater (seat inclined).

As shown, the body sandstone (1) is built on the base ground to have both sides inclined, the covering stone 21 is installed to protect the front and rear inclined surface, a plurality of covering blocks (sofa block: 22) is installed on the outside of the term The uppermost structure 10 is installed at the top.

Figure 2 shows a conventional caisson breakwater.

In order to prevent the amount of sandstone from being excessively deep, the foundation stone 1 is constructed only to a certain height, and a large number of caissons 4 are installed thereon, and then sand or the like is built into the caissons 4. By filling, the wall is stabilized.

However, such a conventional implosion structure had the following problems.

In order to prevent the covering stone 21 or the covering block 22 from slipping from the inclined surface due to the collision with the blue and the crushing, the covering stone 21 or the covering block 22 is formed from the lower end of the inclined surface of the body sandstone 1. It should be installed so as to extend forward or rearward by a predetermined section, and the amount of cladding stone 21 or cladding block 22 required is excessive, which is a large factor in increasing construction cost and construction period.

In addition, in the case where the foundation ground is soft ground, ground improvement should be carried out by scooping it out and filling the sandstone, and as the extension installation section of the covering stone 21 or the covering block 22 becomes wider, As the area A1 is also widened, the problem of increase in construction cost and construction period is more highlighted.

The present invention was derived to solve the above problems, while efficiently preventing the sliding of the cladding or covering blocks, while supporting the block of the implosion structure of the structure to minimize the increase in construction cost and construction period and breakwater using the same To that end, the purpose is to present a draft.

In order to achieve the object as described above, the present invention is to be installed in the width direction at the lower end of the inclined surface of the body gasket (1), in order to prevent the slipping of the covering portion 20 of the implosion structure, the covering portion ( 20 shows a support block 100 of an implosion structure, characterized in that the inclined surface 101 is formed on the side in contact with the inclined surface of the body sandstone (1) formed on the side contacting.

The support block 100 is preferably formed with a wider bottom surface than the upper surface.

The support block 100 is preferably formed on the opposite side of the covering side inclined surface 101 is formed on the opposite side of the covering side inclined surface 101 facing the coating side side inclined surface (101).

The support block 100 is preferably cross-sectional to form a trapezoid.

The support block 100 is preferably formed through holes 103 for artificial reef formation.

The artificial reef forming through hole 103 is preferably formed to penetrate the upper surface and the inclined surface 102 opposite the coating portion.

The present invention is another means for achieving the above object, the body sand (1) installed on the foundation ground so that the inclined surface is formed in the front and rear; A coating part 20 provided on an inclined surface of the body sandstone 1; In order to prevent the slipping of the covering portion 20 by sliding, the support block 100 installed in a plurality of rows at the bottom of the inclined surface of the body sandstone (1); proposes a breakwater comprising a.

It is preferable that the covering part 20 is a covering stone 21 or a covering block 22.

The present invention is another means for achieving the above object, the body sand (1) installed on the foundation ground so that the inclined surface is formed in front; A coating part 20 provided on an inclined surface of the body sandstone 1; In order to prevent the slipping of the covering portion 20 by sliding, the support block 100 installed in a plurality of rows at the bottom of the inclined surface of the body sandstone (1);

It is preferable that the covering part 20 is a covering stone 21 or a covering block 22.

The present invention proposes a support block of a breakwater structure and a breakwater using the same, and a breakwater using the same to efficiently prevent slippage of a covering stone or a covering block, and to minimize an increase in construction cost and construction period.

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

As shown below in Figure 3, the breakwater according to the present invention is basically a body sandstone (1) installed on the foundation ground so that the inclined surface is formed in the front and rear; A covering part 20 provided on the inclined surface of the body sandstone 1; It is configured to include; support blocks 100 installed in a row in a plurality of lower end of the inclined surface of the body sandstone 1 so as to prevent the separation of the coating portion 20 by sliding.

That is, in order to prevent slippage of the covering part 20 (covered stone 21, covering block 22) due to blue, instead of applying a method of extending the installation section of the covering part 20 as in the prior art, The support block 100 of the structure is to be installed at the bottom of the inclined surface of the body gasket (1).

When the support block 100 is designed to efficiently design the structure, the support block 100 has an effect that the construction cost and construction period can be significantly reduced compared to the installation of the cladding stone 21 and the coating block 22 as in the related art.

Furthermore, the lower area A2 of the breakwater when the support block 100 is installed will be significantly reduced compared to the area A1 when the conventional covering stone 21 and the covering block 22 are installed. If the ground is soft ground, and the ground improvement is necessary, the section of the ground improvement is also greatly reduced, so that the effect of the reduction of the construction cost and construction period can be obtained more significantly.

A body sandstone 1 installed on the foundation ground so that an inclined surface is formed in front; A covering part 20 provided on the inclined surface of the body sandstone 1; The same effect can be obtained even in the case of a relief structure including a support block 100 installed in a row at a lower end of an inclined surface of the body sandstone 1 so as to prevent the slipping of the covering part 20 by sliding. .

Hereinafter, embodiments of the structure of the support block 100 of the wave-resistant structure according to the present invention will be described.

The support block 100 of the implosion structure according to the present invention is basically to be installed in the width direction at the lower end of the inclined surface of the body sandstone 1, in order to prevent the slipping of the covering portion 20 of the implosion structure, It is characterized in that the side portion in contact with the abdomen 20, the inclined surface side of the covering portion side 101 is formed in the opposite direction to the inclined surface of the body grit (1).

That is, the covering part side inclined surface 101 is formed on the side of the support block 100 in contact with the covering part 20 so as to face the direction opposite to the inclined surface of the body sandstone 1, The weight is to act in a diagonal direction to the support block 100, to prevent the departure of the support block 100.

Therefore, the support block 100 can achieve a stable support structure not only by its own weight but also by the weight of the covering portion 20 acting on the covering side inclined surface 101.

In order to prevent slippage or other detachment of the bottom of the support block 100, the bottom of the support block 100 is preferably formed wider than the top surface.

On the opposite side of the coating side inclined surface 101, it is preferable that the coating side opposite inclined surface 102 facing the coating side inclined surface 101 is formed, which is the hydraulic pressure applied to the coating side opposite inclined surface 102 and This is because the wave pressure acts on the support block 100 in an oblique direction, so that the departure of the support block 100 is more surely prevented.

Therefore, it is preferable to form the trapezoidal cross-section so that the cross-section is formed on both side surfaces of the support block 100, the inclined surface side 101 and the inclined surface 102 opposite the cover portion.

On the other hand, since the support block 100 is a structure that is installed at the bottom of the breakwater, the lake, the formation of a plurality of through-holes 130, there is an advantage that can perform a function as an artificial reef (Fig. 5, 6).

When forming the through-hole 103 for artificial reef formation in the support block 100 as described above, the cover side inclined surface 101 will be closed by contact with the cover 20, the through-hole for artificial reef formation 103 is preferably formed so as to penetrate the upper surface of the support block 100 and the inclined surface 102 opposite the cover portion.

In addition, the support block 100 according to the present invention is applicable to the basic stone section of the coastal structure for preventing coastal erosion, in addition to the above breakwater, shelter, seawall (vessel docking facility), immersion, berrant, in this case the same as described above The effect can be obtained.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1,2 is a cross-sectional view showing a conventional breakwater.

3 or less shows an embodiment of the present invention,

3 is a sectional view of a first embodiment of an implosion structure;

4 is a sectional view of a second embodiment of an implosion structure;

5 is a perspective view of a second embodiment of an implosion structure;

6 is a perspective view of a support block;

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

1: body sandstone 10: dama structure

20: coating part 21: coating stone

22: covering block 100: support block

101: coating side side inclined surface 102: coating side opposite slope

103: through hole for artificial reef formation

Claims (13)

In order to prevent the slipping of the cladding portion 20 of the implosion structure by sliding, the tumbler gasket 1 is provided on a side contacting the cladding portion 20 so as to be installed at a lower end of an inclined surface of the tumbler gasket 1 in the width direction. The support block 100 of the implosion structure, characterized in that the inclined surface side inclined surface 101 is formed in the opposite direction to the slope. The method of claim 1, The support block 100 of the implosion structure, characterized in that the bottom is formed wider than the upper surface. The method of claim 2, A support block (100) of an implosion structure, characterized in that the opposite side of the covering side inclined surface (101) is formed on the opposite side of the covering side inclined surface (101) facing the coating side. The method of claim 3, Support block 100 of the implosion structure, characterized in that the cross section to form a trapezoid. The method of claim 1, The support block 100 of the implosion structure, characterized in that the through-hole 103 for artificial reef formation is formed. The method of claim 5, The artificial reef forming through-holes 103 are formed to penetrate the upper surface and the inclined surface 102 opposite the cover portion, support block 100 of the implosion structure. A body sandstone 1 installed on the foundation ground so that slopes are formed at the front and the rear; A coating part 20 provided on an inclined surface of the body sandstone 1; Claims 1 to 6 of any one of claims 1 to 6 installed in a row at the lower end of the inclined surface of the body sandstone (1) to prevent the slipping of the covering portion 20 by sliding; Breakwater containing. The method of claim 7, wherein The coating part 20 is a breakwater, characterized in that the covering stone (21) or covering block (22). A body sandstone 1 installed on the foundation ground so that an inclined surface is formed in front; A coating part 20 provided on an inclined surface of the body sandstone 1; Claims 1 to 6 of any one of claims 1 to 6 installed in a row at the lower end of the inclined surface of the body sandstone (1) to prevent the slipping of the covering portion 20 by sliding; Including lanyards. 10. The method of claim 9, The cladding portion 20 is a clad stone (21) or cladding block (22) characterized in that. A body sandstone 1 installed on the foundation ground so that an inclined surface is formed in front; A coating part 20 provided on an inclined surface of the body sandstone 1; Claims 1 to 6 of any one of claims 1 to 6 installed in a row at the lower end of the inclined surface of the body sandstone (1) to prevent the slipping of the covering portion 20 by sliding; Including quay wall. A body sandstone 1 installed on the foundation ground so that an inclined surface is formed in front; A coating part 20 provided on an inclined surface of the body sandstone 1; Claims 1 to 6 of any one of claims 1 to 6 installed in a row at the lower end of the inclined surface of the body sandstone (1) to prevent the slipping of the covering portion 20 by sliding; Containing latent. A body sandstone 1 installed on the foundation ground so that an inclined surface is formed in front; A coating part 20 provided on an inclined surface of the body sandstone 1; Claims 1 to 6 of any one of claims 1 to 6 installed in a row at the lower end of the inclined surface of the body sandstone (1) to prevent the slipping of the covering portion 20 by sliding; Elans containing.

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