JP6894607B2 - Wave-dissipating block - Google Patents

Description

The present invention is an upright type installed on a coast, riverbank, fishing port, harbor, underwater, etc. for the purpose of energizing waves and suppressing wave launch (wave splash), overtopping waves, reflected waves, harbor vibration, bay vibration, etc. It is a wave-dissipating block.

Conventionally, deformed blocks installed on coasts, river banks, etc. for the purpose of wave-dissipating have been known.
By layering or stacking these irregular blocks, a complex space is formed between the blocks, and the energy of the waves is dispersed in the process of the waves passing through this space, and as a result, the waves can be deenergized. ..
However, the conventional deformed block is a sloping block and requires a large installation area, so concrete structures will be installed over a wide area, but this is (avoid the approach of people) on the coast or riverbank. There are many criticisms such as destroying the original landscape and damaging the landscape.
In addition, since the surrounding water flow is not stable, the deformed block has a complicated shape, such as a water accident in which a swimmer or a surfer approaches the deformed block and is taken inside the block group. As a result, accidents such as falling from blocks that have become slippery due to moss and seaweed have occurred, and many of the installed blocks have been taken measures such as off-limits.

For the variant type having such a problem, for example, an upright type wave-dissipating block as in Patent Document 1 has been proposed.
The upright wave-dissipating block is equipped with columns that extend in the vertical direction, and waves that have entered between adjacent columns are crushed in the internal space of the block, and waves are reduced to suppress overtopping waves and reflected waves. Although it has a structure, unlike the irregular wave-dissipating block, the top of the embankment (block) can be flattened, so the top can be used for roads and promenades, and in the vertical direction. Since it can be installed in layers, the installation area can be reduced and the scenery is aesthetically pleasing.
However, the upright type is less stable than the deformed type, and because of its structure, many blocks move or jump due to the impact force of large waves, so rough waves in the open sea such as the Pacific Ocean and the Sea of Japan are direct. There is a problem that it cannot be used in the place where it attacks.

Japanese Patent Application Laid-Open No. 1-295906

Therefore, the present invention is a wave-dissipating block that can be used not only on coasts and riverbanks, but also in fishing ports, harbors, etc. While fully fulfilling the function of suppressing overtopping waves, reflected waves, harbor vibrations, bay vibrations, etc., the top of the block is on the promenade, fishing spot, bench, table, during normal times and evacuation without spoiling the scenery of the installation location. The challenge is to provide a wave-dissipating block that proposes new possibilities, such as using it for stairs.

The wave-dissipating block according to the present invention
A square bottom with four corners cut off,
A cylinder that stands on the bottom and
Consists of
The surface is characterized in that small irregularities are formed.

The wave-dissipating block according to the present invention
A square bottom with four corners cut off,
A cylinder that stands on the bottom and
Consists of
A concave portion is formed on the bottom surface of the bottom body, and a convex portion is formed on the top surface of the cylindrical body.
It is characterized in that a plurality of recessed portions and convex portions can be laminated so as to be fitted to each other.

The wave-dissipating block structure according to the present invention
A square bottom body with multiple through holes and four corners cut off,
Multiple columns standing on the bottom and
Consists of
The surface is characterized in that small irregularities are formed.

The wave-dissipating block structure according to the present invention
A square bottom body with multiple through holes and four corners cut off,
Multiple columns standing on the bottom and
Consists of
A convex portion is formed on the top surface of each cylinder, and a concave portion is formed on the bottom surface at the position where the bottom cylinder stands.
It is characterized in that a plurality of recessed portions and convex portions can be laminated so as to be fitted to each other.

The wave-dissipating block structure according to the present invention
A square bottom body with multiple through holes and four corners cut off,
A wall body that stands at the side end of 1 of the bottom body,
Multiple columns standing on the bottom and
Consists of
The wall body has a notch at the bottom (bottom surface of the bottom plate) of the wall and a protrusion that fits into the notch at the top.
It is characterized in that a plurality of notched portions and protruding portions can be laminated so as to be fitted to each other.

The wave-dissipating block structure according to the present invention
A square bottom body with multiple through holes and four corners cut off,
A wall body that stands at the side end of 1 of the bottom body,
Multiple columns standing on the bottom and
Consists of
In the wall body, a notch is formed at the bottom (bottom surface of the bottom plate) of the wall, and a protrusion that fits into the notch is formed at the top surface.
A convex portion is formed on the top surface of each cylinder, and a concave portion is formed on the bottom surface at the position where the bottom cylinder stands.
It is characterized in that a plurality of notched portions and protruding portions can be laminated so that concave portions and convex portions are fitted to each other.

The wave-dissipating block bank according to the present invention
A square bottom body with multiple through holes and four corners cut off,
A wall body that stands at the side end of 1 of the bottom body,
Multiple columns standing on the bottom and
The block body consisting of
The wall body is formed with a notch at the bottom (bottom surface of the bottom plate) of the wall and a protrusion that fits into the notch at the top.
It is characterized in that a plurality of notched portions and protruding portions are laminated so as to be fitted to each other.

The wave-dissipating block bank according to the present invention
A square bottom body with multiple through holes and four corners cut off,
A wall body that stands at the side end of 1 of the bottom body,
Multiple columns standing on the bottom and
The block body consisting of
A notch is formed on the bottom (bottom surface of the bottom plate) of the wall, and a protrusion that fits into the notch is formed on the top surface of the wall.
A convex portion is formed on the top surface of each cylinder, and a concave portion is formed on the bottom surface of the position where the cylinder of each bottom body stands.
It is characterized in that a plurality of notched portions and protruding portions are laminated so that concave portions and convex portions are fitted to each other.

The wave-dissipating block bank according to the present invention
The wave-dissipating block,
Alternatively, the wave-dissipating block structure described above,
Is characterized in that a wave-dissipating block embankment is formed in a state in which the waves are stacked in a multi-stage manner.

1) It is useful for improving the landscape of coasts and river banks, and it can be used as a place for people to gather, such as promenades, rest areas, and fishing spots, instead of blocking people from entering like conventional wave-dissipating blocks.
2) The weight of each wave-dissipating block or wave-dissipating block structure can be changed, and the wave-dissipating block or wave-dissipating block structure can be stacked and installed one by one. It can be changed.
3) By stacking in the vertical direction, the installation area can be reduced, waves can be reduced, and the functions of suppressing wave launch (spray), overtopping waves, reflected waves, harbor vibration, bay vibration, etc. can be fully fulfilled. ..
4) By stacking in multiple stages, the impact force of large waves can be gradually reduced, and wave launch (spray), overtopping waves, reflected waves, harbor vibration, bay vibration, etc. can be suppressed.
5) Since the waves can be extinguished from all directions, it is possible to improve the quietness in the fishing port and the harbor.
6) It can be installed in water such as oceans, rivers, lakes and marshes, and it can be used as a fish reef block as well as energizing the waves flowing above the block body (sea surface) through the flow of tide.

Front view of wave-dissipating block according to one embodiment Top view of wave-dissipating block according to one embodiment Top view of an embodiment in which a plurality of wave-dissipating blocks are installed side by side. Front view of wave-dissipating block according to one embodiment Cross-sectional view of the wave-dissipating block according to one embodiment Side view of an embodiment in which wave-dissipating blocks are laminated Image of one example in which multiple wave-dissipating blocks are installed in the horizontal and vertical directions Image of one example in which multiple wave-dissipating blocks are installed in the horizontal and vertical directions Top view of wave-dissipating block structure according to one embodiment Cross-sectional view of the wave-dissipating block structure according to one embodiment Side view of wave-dissipating block bank according to one embodiment Side view of wave-dissipating block bank according to one embodiment

1 and 2 are a front view and a plan view of the wave-dissipating block according to the present embodiment.
The wave-dissipating block shall consist of a square bottom body 1 of 60 cm x 60 cm x 20 cm with four corners cut off, and a cylinder 2 with a diameter and height of 40 cm x 40 cm standing on the bottom body 1. Can be done.
Since the four corners of the bottom body 1 are trimmed, if a plurality of wave-dissipating blocks are arranged side by side as shown in FIG. 3, a square gap with a side of 10 cm is formed.
This gap allows waves rising from below the bottom body 1 to pass upward when a plurality of wave-dissipating blocks are laminated, and plays a role of reducing the lifting pressure of the waves.
Since the top surface of the column 2 is formed flat in the wave-dissipating block, the top surface portion can be directly used as a table, a chair, or a staircase.
By installing this wave-dissipating block on the coast, riverbank, etc., it can be used as a place of relaxation.
By forming small irregularities on the surface of the column 2 and the side surface of the bottom 1, the appearance resembles that of natural rocks and stones, which contributes to improving the landscape and enhancing the wave-dissipating effect. ..
In addition, by properly blending white cement and Ryukyu limestone powder with ordinary cement, it can give an appearance similar to natural rocks and stones, and also bring about features such as a change in surface color depending on the angle of light reception. it can.

4 and 5 are front views and cross-sectional views of the wave-dissipating block of FIGS. 1 and 2, in which a concave portion 3 is formed on the bottom surface of the bottom body and a convex portion 4 is formed on the top surface of the cylindrical body, respectively. is there.
By stacking a plurality of wave-dissipating blocks so that the concave portion 3 and the convex portion 4 are fitted to each other, a wave-dissipating block bank can be formed as in the embodiment of FIG.
The convex portion 4 of each of the cylindrical bodies 2 mounted on the uppermost stage of the top surface of the cylindrical body 2 can be eliminated so that a person can sit on it.
By forming small irregularities on the surface of the column 2 and the side surface of the bottom 1, the appearance resembles that of natural rocks and stones, which contributes to improving the landscape and enhancing the wave-dissipating effect. ..

7 and 8 are image views of a configuration in which a plurality of wave-dissipating blocks are installed adjacent to each other in the horizontal direction and the vertical direction.
In all the wave-dissipating blocks according to the present embodiment, a connecting means for connecting horizontally adjacent blocks can be provided on the side surface of the bottom body 1, and blocks stacked in the vertical direction are connected to each other. Connection means for this purpose can be provided on the top surface of the cylindrical body 2 and the bottom surface of the bottom body 1, respectively.

Further, the wave-dissipating block can also be configured as shown in FIG. 9 as a "wave-dissipating block structure" in which a plurality of wave-dissipating blocks according to the above embodiment are integrally formed in an adjacent state.
FIG. 9 is a plan view of a wave-dissipating block in which a plurality of cylinders are erected on a square bottom body with four corners cut off, and FIG. 10 is a cross-sectional view taken along the line AA'of FIG.
A plurality of through holes 5 are provided in the bottom body 1 of the wave-dissipating block structure, and when a plurality of wave-dissipating block structures are laminated, waves rising from below the bottom body 1 pass upward. It can be made to play a role in reducing the lifting pressure of the wave.
The wave-dissipating block structure has a structure in which a plurality of cylinders are erected on one bottom body, and the wave-dissipating block is installed by installing a plurality of wave-dissipating block structures adjacent to each other in the horizontal direction and the vertical direction. A bank can be constructed.
Further, a plurality of concave portions 3 are formed on the bottom surface of the bottom body 1 and a convex portion 4 is formed on the top surface of the cylindrical body 2 of the wave-dissipating block structure so that the concave portion 3 and the convex portion 4 are fitted together. The wave-dissipating block bank can also be constructed by laminating the wave-dissipating block structures of.
In this wave-dissipating block bank, connecting means for connecting horizontally adjacent wave-dissipating block structures can be provided on the side surface of the bottom body 1, and the wave-dissipating block structures stacked in the vertical direction can be provided. Connection means for connecting the above can be provided on the top surface of the cylindrical body 2 and the bottom surface of the bottom body 1, respectively.
By forming small irregularities on the surface of the column 2 and the side surface of the bottom 1, the appearance resembles that of natural rocks and stones, which contributes to improving the landscape and enhancing the wave-dissipating effect. ..

Further, the wave-dissipating block can also be configured as shown in FIGS. 11 and 12 as another "wave-dissipating block structure" having a wall body on the side surface side of 1 of the wave-dissipating block structure according to the above embodiment. ..
FIG. 11 is composed of a bottom body 1, a wall body 6, and a cylindrical body 2, and a plurality of protrusions are formed on the bottom surface portion of the wall body 6 and on the top surface portion so as to fit into the notch portion. It is a side view of an Example in which a wave-dissipating block structure is laminated to form a wave-dissipating block bank. FIG. 12 shows a recess 3 on the bottom surface of the bottom body 1 of each wave-dissipating block structure of FIG. It is a side view of an Example in which a plurality of wave-dissipating block structures each having a convex portion 4 formed on the top surface of a cylindrical body 2 are laminated to form a wave-dissipating block bank.
The convex portion 4 of each of the cylindrical bodies 2 stacked on the uppermost stage of FIG. 12 can be eliminated so that the top surface of the cylindrical body 2 can be used as a table, chairs, and stairs.
By stacking a plurality of wave-dissipating block structures having a wall body 6, it is possible to form an upright wall in which the wall bodies 6 are continuously stacked in the vertical direction.
The upright wall breaks waves and prevents the ingress of waves, but the accompanying wave droplets and water masses are rolled up.
However, due to the wave-dissipating characteristics of the wave-dissipating block according to the present invention, the splashes and the like caused by the launch of the waves jump almost vertically upward, so that the wave does not exceed the revetment significantly.
This is because the bottom body 1 of each of the stacked wave-dissipating block structures collides with the wall body 6 and suppresses the wave jumping vertically upward, so that the wave leading to the overtopping wave is launched only at the uppermost stage, and the wall body 6 is raised. This is because it does not result in a significant overtopping wave.
In this wave-dissipating block bank, connecting means for connecting horizontally adjacent wave-dissipating block structures can be provided on the side surface of the bottom body 1, and the wave-dissipating block structures stacked in the vertical direction can be provided. Connection means for connecting the above can be provided on the top surface of the cylindrical body 2 and the bottom surface of the bottom body 1, respectively.
By forming small irregularities on the surface of the column 2 and the side surface of the bottom 1, the appearance resembles that of natural rocks and stones, which contributes to improving the landscape and enhancing the wave-dissipating effect. ..

Further, by stacking the wave-dissipating block structures according to the above embodiment in a multi-stage manner, a multi-stage wave-dissipating block bank as shown in FIGS. 7 and 8 can be formed.
In this wave-dissipating block bank, connecting means for connecting horizontally adjacent wave-dissipating block structures can be provided on the side surface of the bottom body 1, and the wave-dissipating block structures stacked in the vertical direction are connected to each other. Connecting means for this can be provided on the top surface of the cylindrical body 2 and the bottom surface of the bottom body 1, respectively.
By forming small irregularities on the surface of the column 2 and the side surface of the bottom 1, the appearance resembles that of natural rocks and stones, which contributes to improving the landscape and enhancing the wave-dissipating effect. ..

According to the wave-dissipating block bank according to the present invention, the columnar body 2 closest to the approach wave does not reflect the waves but gently deenergizes the waves due to its curved surface shape, and the inside of the space of the wave-dissipating block bank. Each time a wave passes between the columnar bodies 2, the plurality of columnar bodies 2 erected in the above break the wave and reduce the energy.
The waves that have entered the space of the wave-dissipating block bank finally reach the wall body 6 and wind up the wave droplets and water mass accompanying the breaking waves, but the rising waves are provided on the bottom body 1. By moving upward through the through hole 5, the lifting pressure of the wave is reduced.
As a result, the wave splashes caused by the launch of the waves only bounce almost vertically upward, so that the waves do not exceed the revetment (wave-dissipating block embankment) significantly.

The wave-dissipating block bank according to the present invention can form a promenade by installing a deck (flat plate) on the upper surface of the uppermost column 2 or wall 6, and the column 2 can also be used as a bench. Available. It can also be used as a fishing spot, bench, table, and stairs during normal times and evacuation.
Further, the wave-dissipating block bank according to the present invention can be installed in a small laying area and can dissipate waves entering from all directions, so that it can be installed in a fishing port, a harbor, etc. It is possible to improve the quietness of the port.
Furthermore, the wave-dissipating block or wave-dissipating block structure according to the present invention can be installed in water such as the ocean, rivers, lakes and marshes and used as a fish reef block, but it reduces waves while allowing the flow of tides to pass through. be able to.

The wave-dissipating block, wave-dissipating block structure, and wave-dissipating block bank according to this embodiment may be added or removed depending on the conditions such as the topography, size, and waves of the site. It is possible to freely design the configuration of the wave-dissipating block structure itself and the configuration of the wave-dissipating block bank in which the wave-dissipating block structures are laminated at any time, and it is easy even after the construction is completed. The shape can be changed.
In addition, by constructing the wave-dissipating block embankment according to this embodiment in a multi-stage shape, the impact force of large waves is gradually reduced, and wave launch (spray), overwave, reflected wave, harbor vibration, and inside the bay. Vibration etc. can be suppressed.
When the wave-dissipating block embankment according to this embodiment is configured in a multi-stage shape, the installation area becomes large, but by installing a deck (flat plate) on the upper surface of the uppermost column 2 or wall 6, the promenade can be constructed. It can be made, and the cylinder 2 can also be used as a bench. In addition, it can be used for fishing spots, tables, stairs during normal times and evacuation, and new possibilities can be proposed.

When a large number of wave-dissipating blocks, the same structure, and wave-dissipating block banks according to the present invention are arranged two-dimensionally and three-dimensionally, they have the same function as the audience seats of a concert hall with the coastline set in the sea and facing the sea. However, there is a characteristic of coastline formation.
Furthermore, it has the ability to secure an evacuation staircase at the time of evacuation as well as the use as a staircase at normal times such as access to the sea or the sea, and also has the function of easily rising to the water when falling into the sea.

1 Bottom body 2 Cylindrical body 3 Recessed part 4 Convex part 5 Through hole 6 Wall body

Claims (2)

A square bottom body with multiple through holes and four corners cut off,
A wall body that stands at the side end of 1 of the bottom body,
Multiple columns standing on the bottom and
Tona is, the bottom body wall and the block body in combination cylinder Ru is configuration,
The wall body is formed with a notch at the bottom of the wall and a protrusion that fits into the notch at the top of the wall.
A wave-dissipating block bank characterized in that a plurality of cutouts and protrusions are laminated so as to fit each other. A square bottom body with multiple through holes and four corners cut off,
A wall body that stands at the side end of 1 of the bottom body,
Multiple columns standing on the bottom and
Tona is, the bottom body wall and the block body in combination cylinder Ru is configuration,
A notch is formed on the bottom of the wall, and a protrusion that fits into the notch is formed on the top of the wall.
A convex portion is formed on the top surface of each cylinder, and a concave portion is formed on the bottom surface of the position where the cylinder of each bottom body stands.
A wave-dissipating block bank characterized in that a plurality of notches and protrusions are laminated so that concave portions and convex portions are fitted to each other.

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