KR102426108B1 - Prefabricated Covering Block for Breakwater - Google Patents

Abstract

The present invention relates to a prefabricated covering block for a breakwater, and by forming a flow preventing protrusion on the upper surface of the slope, the tetrapod installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion, so the efficiency of work when installing the tetrapod To provide a prefabricated cladding block for a breakwater that can increase the cost, thereby reducing the cost of installation. The present invention includes a small end 40 formed horizontally at both ends of the sandstone 100, a slope 50 having one side connected to the small end 40 and the other side inclined upwardly, and the slope 50 ) connected to the other side, the first block 20 and the second block 30 comprising an upper end 60 formed to cover the upper portion of the sandstone 100 are adjacently coupled in the lateral direction, and the first block (20) and the second block 30 is characterized in that the flow prevention protrusion 52 is formed on the slope 50 to prevent the flow of the tetrapod 200.

Description

Prefabricated Covering Block for Breakwater}

The present invention relates to a prefabricated covering block for a breakwater, and more particularly, by forming a flow preventing protrusion on the upper surface of the slope, the tetrapod installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion. It relates to a prefabricated covering block for a breakwater that can increase the efficiency of city work, and thus can reduce the cost of installation.

Reservoir or breakwater installed on the coast of Korea is a structure that prevents the loss of debris by constructing the lower part of the body with rubble stones and installing it with covering stones on the outside of the rocks loaded for stability. It is divided into an inclined breakwater having a structure as shown in 1 and an upright breakwater having a structure as shown in FIG. 2 .

The conventional breakwater structure as described above is a structure that requires a large amount of natural resources, such as sandstone (1) and covered stone (2). , the natural landscape is destroyed, and the construction cost increases due to the long construction period along with mining labor costs, equipment operation and transportation costs. There is a problem in that durability is shortened.

Therefore, various types of breakwater structures and construction methods are being developed as a way to solve the above problems. Patent Document 1 relates to a 'construction method of a breakwater using a reinforced concrete unit block'. As shown in FIG. 3, the unit block 1 on one side and the other side is formed on the side wall part 12 with the convex part 16 and the main part ( 15) and assembling the vertical reinforcing bar 17 protruding to the upper part of the unit block 1 by assembling the lower unit block 1 and the upper unit block 1 is known, but the The size of the block 1 is large, the structure is complicated, and the construction method is cumbersome, such as having to use the vertical reinforcing bar 17 for assembling the unit block 1 on one side and the unit block 1 on the other side.

And Patent Document 2 relates to a 'block for covering the slope on the outer sea side of the breakwater', and as shown in FIG. 4, a plurality of rectangular seawater passage holes (2) are formed on the upper surface of the block, and the front surface (3) (3') and the rear surface ( 4) In (4'), the female key block 5 and the male key block 7 are spaced apart from each other by a predetermined distance on the left and right. Rather, as shown in the drawings, if the tetrapod is not installed on the outside of the covering block, there is a fear that the assembled covering block is separated by waves.

On the other hand, the present applicant has also improved the conventional breakwater structure and is composed of an integrated unit block without a joint from the sea level to the land as shown in FIG. A cladding block has been developed and a patent has been registered as known in Patent Document 3, and in order to facilitate the lifting of the concrete block when constructing a breakwater using the concrete block, a useful concrete block having a structure as shown in FIG. 6 is available. As known in Patent Document 4, a patent registration has been obtained by developing a structure for fastening the holding ring.

In addition, the present applicant developed and applied for a prefabricated covering block for a breakwater of Patent Document 5, formed in the longitudinal direction of the sandstone 100 as shown in FIG. (21), spaced apart from both sides of the first protruding end (21) to form a second protruding end (22), a coupling groove between the first protruding end (21) and the second protruding end (22) A first block 20 having a cross-sectional shape in which 23 is formed, and a first protruding end 31, a second protruding end 32 and a coupling groove so that the cross-sectional shape is symmetrical with the first block 20 ( 33) is formed of a second block 30, and the first block 20 and the second block 30 have a lower end 40 formed horizontally at both ends of the sandstone 100, and one side is A side wall end 50 connected to the lower end 40 and the other side inclined upwardly, and an upper end connected to the other side of the side wall end 50 and formed to cover the top of the sandstone 100 . (60) is characterized in that it consists of.

However, in the case of the prefabricated covering block for the breakwater, when the tetrapod is installed on the upper surface of the side wall end 50, the tetrapod flows without being fixed at a predetermined position on the upper surface of the side wall end 50. The applicant has applied for the present invention.

Domestic Patent Publication No. 10-2012-0022532 (published on March 12, 2012) Construction method of a breakwater using reinforced concrete unit blocks Domestic Registered Utility Model Publication No. 20-0342292 (Registered on Feb. 06, 2004) Block for covering the slope on the outer sea side of the breakwater Domestic Registered Patent Publication No. 10-1997178 (registered on July 01, 2019) Eco-friendly reef type covering block Domestic Patent Publication No. 10-1832748 (Registered on February 21, 2018) Concrete block retaining structure that can be diverted Domestic Patent Application No. 10-2019-0116949 (filed on September 23, 2019) Prefabricated covering block for breakwater

The present invention is a method to solve the above problems because the tetrapod installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion by forming the flow preventing protrusion on the upper surface of the slope. An object of the present invention is to provide a new type of prefabricated cladding block for a breakwater that can increase efficiency and thus reduce the cost of installation.

According to the features of the present invention for achieving the above object, the small end 40 formed horizontally at both ends of the sandstone 100, one side is connected to the small end 40, and the other side is formed to be inclined upward. A first block 20 and a second block 30 comprising a slope 50 to be used and an upper end 60 connected to the other side of the slope 50 and formed to cover the upper portion of the gravel 100 are side surfaces. are coupled adjacent to each other in the direction, and the first block 20 and the second block 30 are characterized in that the flow prevention protrusion 52 is formed on the slope 50 to prevent the flow of the tetrapod.

In such a prefabricated covering block for a breakwater according to the present invention, the first block 20 is formed in the longitudinal direction of the sandstone 100, and has a first protruding end 21 whose center side protrudes upward, and the A cross-sectional shape in which the second protruding end 22 is formed spaced apart from both sides of the first protruding end 21 , and a coupling groove 23 is formed between the first protruding end 21 and the second protruding end 22 . The second block 30 has a first protrusion end 31 , a second protrusion end 32 and a coupling groove 33 formed so that the cross-sectional shape is symmetrical with the first block 20 . Consists of two blocks 30, the second protruding end 32 and the engaging groove 33 of the second block 30 in the engaging groove 23 and the second protruding end 22 of the first block 20 ) is coupled, and the first block 20 and the second block 30 are characterized in that they are coupled adjacently in the lateral direction.

And in the prefabricated covering block for breakwater according to the present invention, the upper protruding end 51 protruding in the direction of the upper end 60 and the small end 40 is formed on one side and the other end of the slope 50, and the small end ( 40), a seating end 41 is formed in a shape corresponding to the upper protruding end 51 so that the upper protruding end 51 of the slope 50 is seated, and one side of the upper end 60 And the upper end of the other end is characterized in that the seating end 61 is formed in a shape corresponding to the upper projecting end 51 so that the upper projecting end 51 of the slope 50 is placed.

In addition, in the prefabricated covering block for a breakwater according to the present invention, the small end 40, the slope 50, and the upper end 60 are fastened with a carrier for lifting the first block 20 and the second block 30 It is characterized in that a plurality of fastening holes 70 are formed.

In the prefabricated covering block for a breakwater according to the present invention, the seating end 41 of the small end 40, the upper protruding end 51 of the slope 50, and the seating end 61 of the upper end 60 are the It is characterized in that it is formed on the first protruding ends (21, 31) of the first block (20) and the second block (30).

And in the prefabricated covering block for a breakwater according to the present invention, the small end 40, the slope 50, and the upper end 60 are characterized in that it is made of any one of a single block or a plurality of blocks.

The present invention can increase the efficiency of work when installing the tetrapod because the tetrapod installed on the upper surface does not flow downward by the flow prevention protrusion and is positioned stably by forming the flow preventing protrusion on the upper surface of the slope. This has the effect of reducing costs.

And, it is a structure that covers the rough stone by assembling a unit block by one-time installation using prefabricated covering blocks for about a dozen construction areas of conventional covered stone. Since it can be easily constructed, the air is shortened, and there is an effect of imparting stability to the gravity type body (堤体).

In addition, the present invention has an effect of easy construction and maintenance by using the unit block divided into small ends, slopes and upper ends when assembling and constructing by using the fastening means of the unit blocks.

In addition, since the present invention is composed of a unit block divided into a small end, a slope and an upper end, depending on the shape of the breakwater, the angle, width, length, etc. of the shoulder part of the rock can be adjusted by changing the structure of the connection part, etc. .

In addition, the present invention has the effect that the breakwater structure is stabilized by preventing the loss of foundation stones by the weight and large ground area of the cladding block, and there is almost no gap compared to the conventional cladding stone because the unit block has a larger ground area than the conventional clad stone. there is

1 is a view showing a conventional inclined breakwater (sandstone incline),
Figure 2 is a view showing a typical caisson breakwater,
3 to 5 are views for explaining the conventional breakwater structure,
Figure 6 is a view showing the structure of the conventional concrete block holding ring,
7 is a view showing a prefabricated covering block for a breakwater previously applied by the present applicant;
8 is a perspective view of a prefabricated covering block for a breakwater according to a preferred embodiment of the present invention;
9 is a view showing a first block and a second block in the prefabricated covering block for a breakwater according to a preferred embodiment of the present invention;
10 is a view showing a connection part between the small end and the slope in the prefabricated covering block for a breakwater according to a preferred embodiment of the present invention;
11 is a view showing the connection part of the slope and the upper end in the prefabricated covering block for a breakwater according to a preferred embodiment of the present invention;
12 is a view showing a state in which a tetrapod is installed in a prefabricated covering block for a breakwater according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in FIGS. On the other hand, in the drawings and detailed descriptions, detailed descriptions and illustrations of specific technical configurations and actions of elements not directly related to the technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly illustrated or explained.

8 to 12 , the prefabricated covering block 10 for a breakwater according to a preferred embodiment of the present invention includes a first block 20 and a first block 20 formed in the longitudinal direction of the sandstone 100 and It is made to include a second block 30 that is adjacently coupled in the lateral direction.

The first block 20 and the second block 30 have small ends 40 formed horizontally at both ends of the sandstone, one side is connected to the small end 40, and the other side is inclined upwardly. ) and an upper end 60 connected to the other side of the slope 50 and formed to cover the upper portion of the sandstone 100 . Here, on the upper surface of the slope 50, a flow preventing protrusion 52 for preventing the flow of the tetrapod 200 is formed upward. At this time, it is preferable that the flow preventing protrusion 52 is formed perpendicular to the upper surface of the slope 50 . This is because the area in contact with the tetrapod 200 is wide, so that the flow of the tetrapod 200 can be minimized.

In this way, by forming the flow preventing protrusion 52 on the upper surface of the slope, the tetrapod 200 installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion 52, so the operation when installing the tetrapod 200 It is possible to increase the efficiency of the system, and thus has the effect of reducing the cost of installation.

The small end 40 has a seating end 41 formed so that the upper protruding end 51 of the slope 50, which will be described later, is seated in the upper end of the one end, the slope 50 has an upper end at one side and the other end at an upper end 60 and The upper protruding end 51 protruding in the direction of the small end 40 is formed, and the upper end 60 has one side and the other end upper portion of the slope 50 so that the upper protruding end 51 of the slope 50 is seated. The seating end 61 is formed in a shape corresponding to the stage 51 . At this time, the resting end 41 of the small end 40, the upper protruding end 51 of the slope 50, and the resting end 61 of the upper end 60 are of the first block 20 and the second block 30. It is formed on the first protruding ends (21, 31).

In addition, the small end 40, the slope 50, and the upper end 60 are a plurality of fastening holes 70 to which a holding ring (not shown) for lifting the first block 20 and the second block 30 is fastened. this is formed

On the other hand, the small end 40, the slope 50, and the upper end 60 of the first block 20 and the second block 30 may be made of one block or any one of a plurality of blocks.

When the small end 40, the slope 50, and the upper end 60 of the first block 20 and the second block 30 are formed of a plurality of blocks, the small end 40 and the upper end 60 are located at the parts connected to each other. And the slope 50 is formed with resting ends 41 and 61 and upper protruding ends 51 as described above.

On the other hand, the first block 20 has a cross-sectional shape formed in the longitudinal direction of the sandstone 100 , and has a first protruding end 21 with a central side protruding upward, and from both sides of the first protruding end 21 . A second protruding end 22 is formed spaced apart, and a coupling groove 23 is formed between the first protruding end 21 and the second protruding end 22 .

The second block 30 includes a first protruding end 31 , a second protruding end 32 and a coupling groove 33 having a cross-sectional shape that is vertically symmetrical with the first block 20 .

The first block 20 and the second block 30 having the structure as described above are the second block 30 in the coupling groove 23 and the second protruding end 22 of the first block 20 . The two protruding ends 32 and the coupling groove 33 are coupled, and the first block 20 and the second block 30 are coupled adjacent to each other in the lateral direction.

As described above, in the present invention, by forming a flow preventing protrusion on the upper surface of the slope, the tetrapod 200 installed on the upper surface is stably positioned without flowing downward by the flow preventing protrusion. It is possible to increase the efficiency, and accordingly, there is an effect of reducing the cost due to the installation.

And, it is a structure that covers the rough stone by assembling a unit block by one-time installation using prefabricated covering blocks for about a dozen construction areas of conventional covered stone. Since it can be easily constructed, the air is shortened, and there is an effect of imparting stability to the gravity type body (堤体).

In addition, the present invention has an effect of easy construction and maintenance by using the unit block divided into small ends, slopes and upper ends when assembling and constructing by using the fastening means of the unit blocks.

And, since the present invention is composed of a unit block divided into a small end, a slope, and an upper end, depending on the shape of the breakwater, the angle, width, length, etc. of the shoulder part of the stone can be adjusted by changing the structure of the connection part, etc. .

In addition, the present invention has the effect that the breakwater structure is stabilized by preventing the loss of foundation stones by the weight and large ground area of the cladding block, and there is almost no gap compared to the conventional cladding stone because the unit block has a larger ground area than the conventional clad stone. there is

As described above, although the prefabricated covering block for a breakwater according to a preferred embodiment of the present invention has been shown according to the above description and drawings, this is merely an example and various changes within the scope not departing from the technical spirit of the present invention and variations will be apparent to those skilled in the art.

10: prefabricated covering block for breakwater
20: first block 21: first protruding end
22: second protruding end 23: coupling groove
30: second block 31: first protruding end
32: second protruding end 33: coupling groove
40: small stage 41: anchidan
50: slope 51: upper protruding end
52: flow prevention projection 60: top
61: seating end 70: fastening hole
100: stone 200: tetrapod

Claims (6)

The first protruding end 21 of the first block 20 and the second block 30 in a shape corresponding to the upper protruding end 51 so that the upper protruding end 51 of the slope 50 is seated in the upper portion of the one end. , 31) and the seating end 41 is formed on the small end 40 is formed horizontally on both ends of the sandstone 100;
In a shape corresponding to the seating end 41 of the small end 40 or the seating end 51 of the upper end 60 so that the upper portions of one side and the other end of the slope 50 are placed in the direction of the upper end 60 and the small end 40 The upper protruding end 51 is formed on the first protruding ends 21 and 31 of the first block 20 and the second block 30, one end is connected to the small end 40, and the other end is upward. The slope 50 is formed to be inclined; and,
The first protruding end of the first block 20 and the second block 30 in a shape corresponding to the upper protruding end 51 such that the upper protruding end 51 of the slope 50 is seated on one side and the other end. A seating end 61 is formed on (21, 31), the upper end 60 is connected to the other side of the slope 50, and is formed to cover the upper part of the sandstone 100; including, the small end ( 40), the slope 50, and the upper end 60 are a first block 20 in which a plurality of fastening holes 70 are formed to which a carrier for lifting the first block 20 and the second block 30 is fastened. ) and a second block 30,
The first block 20 is formed in the longitudinal direction of the sandstone 100, has a first protruding end 21 with a central side protruding upward, and is spaced apart from both sides of the first protruding end 21. A second protruding end 22 is formed, and has a cross-sectional shape in which a coupling groove 23 is formed between the first protruding end 21 and the second protruding end 22,
The second block 30 is a second block 30 in which a first protruding end 31 , a second protruding end 32 and a coupling groove 33 are formed so that the cross-sectional shape is symmetrical with the first block 20 . ) consists of
The second protruding end 32 and the engaging groove 33 of the second block 30 are coupled to the engaging groove 23 and the second protruding end 22 of the first block 20, and the first The block 20 and the second block 30 are coupled adjacent to each other in the lateral direction,
On the upper surface of the slope 50 of the first block 20 and the second block 30, a flow prevention protrusion 52 for preventing the flow of the tetrapod 200 is vertically formed. cover block.
delete delete delete delete The method of claim 1,
The small end 40, the slope 50, the upper end 60 is a prefabricated covering block for a breakwater, characterized in that it consists of any one of a block or a plurality of blocks.

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