KR101678143B1 - Block for wave energy diminution and construction method of block for wave energy diminution - Google Patents

Abstract

The present invention relates to a block for dampening wave energy, capable of dampening wave energy in accordance with a change in the volume of a fluid and preventing an overflow of waves thereby, and a construction method thereof. The block comprises a body part, an overflow preventing curvature part, first and second wave guiding parts, and a wave dampening space part including a streamlined part for changing a volume of wave flowing through the first and second wave guiding parts. When waves flow in, wave energy is dampened and an overflow is prevented by changing a volume of wave and adjusting a wave inflow angle, and the body part is refloated through a refloating hole and easily installed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a block for attenuating wave energy and a construction method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a block for attenuating wave energy to prevent attenuation and overflow of wave energy, and a construction method thereof, and more particularly to a block for attenuating wave energy, The present invention relates to a block for attenuating a certain wave energy.

The operation rate of the port depends on the wave entering the port from the sea, the wave entering the port beyond the breakwater, and the reflection wave generated from the wall of the port.

The wave entering the port from the outer sea can be basically reduced by properly arranging the breakwater, and the wave breaking over the ceiling of the breakwater can be reduced by increasing the height of the plane.

Breakwater is an offshore structure to protect the waters of marine vessels and harbor facilities from the waves by soaking the sea of the outer sea and preventing the wrecking of the inner sea by maintaining the constant temperature of the inner sea, Depending on the nature and size of the ground or wave, there are various breakwater structures such as slope type and upright type.

Especially, in order to install a breakwater constructed with a slope, it is necessary to use a sofa block that effectively protects the facilities adjacent to the shore and has a convenient construction so that the wave absorbing from the outside sea can be effectively used. Also, a hydrophilic and aesthetic There is a need to develop a breakwater structure.

Therefore, the development of a sofa block having a structure which can effectively secure the facilities adjacent to the coast by effectively soaking the wave absorbing in the outer sea, securing the stability of the ship navigating the water, having high hydrophilicity, and being sturdy and easy to install Is required.

In order to prevent erosion of the coast due to the waves of the sea, the shore has been built up. However, the conventional shore-shaped revetment or the revetment formed by combining the concrete block can not effectively wave the sea- The contradictions of the construction of the shore such as the loss of the sediments formed on the shoreline, that is, the sand, etc., have arisen due to the formation.

Therefore, it effectively prevents the collapse and loss of the seashore by effectively soaking the wave that invades the outer sea, effectively protects the facilities adjacent to the coast, secures the stability of the ship navigating offshore, and protects the existing sand of the coast The development of a shore protection structure is urgently required.

To solve these problems, various types of sofa blocks have been proposed recently.

As an example, in the case of Korea Registered Patent No. 10-0554600 (hereinafter referred to as "Patent Document 1"),

A front part formed of an upper plate and both side walls so as to form a wave induction hole for inducing a wave to be absorbed from the outside sea, a rear part formed at the lower part of the front side of both side walls and integrally extending from the rear part of the front part, A side wall and a lower plate which are formed lower than the upper plate so that a step is formed at a connection part with the front part so as to be assembled in accordance with the ladder-type connection step formed at the front part when the blocks are stacked, And a rear portion having a sloped wall formed to guide the wave entering the wave guiding hole to the first wave guiding hole opened to the upper side.

However, in the above-described Patent Document 1, the wave guiding hole for guiding the wave is formed in a rectangular shape, so that the wave guiding hole is damaged due to the wave, and thus the wave guiding hole has to be periodically replaced.

Particularly, the wave introduced through the waveguide is collided with the wave coming from the neighboring sofa block through the wave channel, but when the wave energy flowing through the waveguide is high, the sofa block is damaged This also caused a problem that the sofa block had to be replaced frequently.

On the other hand, Korean Patent No. 10-1104050 (hereinafter referred to as Patent Document 2), which is different from the above-described Patent Document 1, has been proposed.

The patent document 2 includes a support structure for supporting the tetra port in the direction of wave propagation and a direction behind the support in the traveling direction of the wave, and a ground reinforcement means for supporting the tetra port and the support structure A reinforced breakwater for reinforcing a breakwater, the reinforced breakwater comprising: a lightweight structure disposed on the support structure, the lightweight structure not requiring additional reinforcement of the ground reinforcement means; A bottom plate disposed at a position removed from the top of the tetra port and disposed at an upper portion of the tetra port and a bottom end extending upward from an end of the bottom plate in the wave direction, And a sofa structure including a sofa plate including a plurality of sofa balls and a connecting plate connecting ends of the bottom plate to the support structure and an upper end of the sofa plate to each other, And a through hole in the direction of the port is provided. Therefore, even if it is constructed of a lightweight structure and is installed in a conventional breakwater, it is not necessary to further reinforce the ground, thereby effectively blocking the wave.

(Patent Document 1) KR10-0554600 B1 Sofa block, breakwater and a rescue structure using the same

(Patent Document 2) KR10-1104050 B1 reinforced breakwater

However, in the above-described Patent Document 2, there is an advantage that the sofa structure disposed on the upper side of the tetra port has a lightweight structure. On the other hand, since the structure of the sofa structure is directly received by the wave introduced into the sofa, There was a problem.

In addition, the above-described structure has a structure that is easily damaged when waves occur frequently, which makes it difficult to use for a long period of time, thus increasing the cost of maintenance.

The present invention provides a block for attenuating wave energy and a method of constructing the block for attenuating wave energy that can attenuate wave energy through volume change of a space and inflow angle adjustment when a wave is introduced, The purpose of the construction method is to provide.

It is another object of the present invention to provide a block for attenuating wave energy that is easy to install and a method of constructing the same.

In the present invention, waves induced through the first and second wave guiding portions are moved to a wave attenuation space portion including a streamline portion formed in the body portion, thereby attenuating the wave energy by a rapid volume change.

In addition, when the first wave guiding part for guiding waves is formed so as to extend downward and the wave traveling through the first wave guiding part flows into the wave attenuation space part, the wave energy is attenuated by the streamline part, Can be prevented.

In addition, the inflow and outflow of the wave can be performed through the second wave guiding portion and the wave guiding guider, thereby improving the attenuation effect of the wave energy.

Furthermore, when the wave hits the front surface of the body through the overflow preventing curved portion formed on the front surface of the body, it is possible to prevent the wave from flowing over the surface.

In addition, since the lifting of the body part is facilitated through the lifting hole connected to the wave reducing space part on the upper side part of the body part, it is a useful invention that can be disposed at the correct position when the body part is moved and installed.

1 is a perspective view showing a block for attenuating wave energy according to the present invention;
Figure 2 is a front view of Figure 1;
3 is a sectional view taken along the line A - A in Fig.
4 is a state diagram showing a first embodiment of the present invention.
5 is a state diagram showing a second embodiment of the present invention.
6 is a state diagram showing a third embodiment of the present invention.
7 (a) is a front view showing another embodiment of the block of the present invention, and Fig. 7 (b) is a plan view.
8 is a state diagram showing a wave energy attenuation state through wave induction according to the present invention.
FIG. 9 is a state diagram showing an operation state of the overflow prevention curvature portion according to the present invention. FIG.
10 is a state diagram showing a construction state of the present invention.

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

First, as shown in FIGS. 1 to 3, the body portion 10 has a substantially rectangular parallelepiped shape with the overall skeleton of the present invention.

A left side face portion 12, a right side face portion, an upper side face portion 14, a lower side face portion 15, and a rear face portion 16, as shown in Fig.

The body 10 is made of concrete, and is not shown in detail in the drawing, but has a structure in which reinforcing bars are formed inside.

The concave portion R may be formed in the front surface portion 11 of the body portion 10 in order to concentrate the incident wave and a plurality of wave assisted guide holes 17 may be formed at the lower side And a plurality of lifting holes 60 may be further formed on the upper side surface portion 14. [

The overflow curvature portion 20 is formed on the front surface portion 11 of the body portion 10. The overflow curvature portion 20 is formed on the front surface portion 11 of the body portion 10 when the wave is scattered by colliding with the front surface portion 11, So that it is formed in a streamlined shape.

The overflow preventing curvature portion 20 is shown in a streamlined shape in which the central portion is recessed toward the rear portion when extending from the lower end of the front portion 11 to the center and the upper end.

That is, it may be formed in a streamlined shape in which the upper end of the front portion 11 protrudes further to the front than other positions so that the fluid scattered upward when the waves are scattered by the front portion 11 can not flow in the first direction .

The first wave guiding part 30 extends from the front part 11 of the body part 10 to the rear part 16 so that a part of the wave is introduced when the wave hits the front part 11 Thereby reducing the energy of the wave and preventing the fluid from moving in the first direction.

The first wave guiding part 30 is formed in such a manner that the first wave guiding hole 32 extends from the front part 11 toward the rear part 16 and the wave guiding hole 32 The first wave guiding chamfer 31 is formed at the tip of the first wave guiding hole 32 so that the wave can flow into the first wave guiding hole 32 more.

That is, the first wave guiding hole 32 must be formed in a limited space. In particular, when the first wave guiding hole 32 is formed to have a large size, the durability of the body portion 10 is deteriorated In order to guide the maximum amount of waves to the first waveguide 32 in a limited space.

Next, the second wave guiding portion 40 is formed in the same shape as the first wave guiding portion 30 described above.

That is, the second wave guiding unit 40 includes a second wave guiding chamber 41 and a second wave guiding hole 42 formed below the first wave guiding unit 40.

The first and second wave guiding portions 30 and 40 may be formed in the direction in which the left and right side portions 12 and 13 of the body 10 are formed.

Next, the wave attenuation space portion 50 is formed so as to pass through the left and right side surface portions 12 and 13 of the body portion 10 so as to penetrate the first and second wave guiding portions 30 and 40 of the above- And is a space through which waves traveling through the wave guide holes 32 and 42 can flow.

The wave attenuation space portion 50 includes a streamlined portion 51 having a streamlined shape such as a dome-shaped or semi-spherical shape.

The first and second wave guide holes 32 and 42 of the first and second wave guide portions 30 and 40 pass through the front portion 11 of the body portion 10 to the wave attenuation space portion 50 3, the first waveguide hole 32 is formed so as to be downwardly inclined at a predetermined angle when extending from the front surface portion 11 to the wave attenuation space portion 50 , And the second wave induction hole (42) can be pierced and connected in a horizontal state.

Particularly, the angle at which the first wave guide hole 32 is downward is the angle at which the first wave guide hole 32 passes through the first wave guide hole 32 and discharges the wave emitted through the outlet side 32b for moving the wave to the wave- It should be formed considering the angle.

That is, the downward angle of the first wave guide hole 32 may be the same as the inclination of the streamline portion 51 of the wave attenuation space portion 50, or may be formed at an angle similar to the tilt angle so that the first wave guide hole 32 It is preferable that the wave energy is attenuated while preventing the wave attenuation space portion 50 from being broken by the wave moved through the wave absorbing portion 50. [

The waves attenuating space 50 may be formed by colliding waves introduced into the wave attenuation space 50 through the first and second wave induction holes 32 and 42 so that the wave energy is attenuated in the wave attenuation space 50. [ It is preferable that the outlet sides 32b and 42b of the first and second wave induction holes 32 and 42,

It is preferable that the lifting hole 60 formed in the upper side surface portion 14 of the body 10 is formed to penetrate through the wave attenuation space portion 50.

In the present invention, the key 18 and the key groove 19 are formed on the left and right side portions 12 and 13 so as to connect and dispose the plurality of body portions 10, And the body 10 may be connected in the transverse direction and the longitudinal direction as shown in FIGS. 5 to 6.

7, the key 18 may be further formed on the upper side portion 14 of the body portion 10 for the purpose of structural stability. In this case, It is preferable that the waveguide 18 is formed in a space in which the wave assist guide hole 17 formed in the front part 11 is not formed and has the same size as the width of the wave attenuation space part 50. [

In particular, although FIG. 7 is formed at the substantially central portion of the upper side portion 14 of the body portion 10, it may be formed at each of the opposite end portions, or a plurality of portions may be formed for structural stability.

Hereinafter, effects of the block for attenuating wave energy according to the present invention will be described.

First, the block 100 for attenuating the wave energy according to the present invention attenuates the wave energy while preventing the phenomenon that the waves are swept over the wave when the waves are hit by attenuating the wave energy like a sofa block, a half wave block, Can be obtained.

In detail,

As shown in FIG. 8, when the wave moves in a direction in which the block 100 for attenuating wave energy according to the present invention is formed, most of the waves are transmitted through the first and second wave induction units 30 and 40, (32, 42).

At this time, the concave portion R is formed in the front portion 11 of the body 10 to concentrate the wave to the front portion 11 first.
The first and second wave guiding chambers 31 and 41 are formed on the first and second wave guiding portions 30 and 40 so as to have a wider area than the first and second wave guiding holes 32 and 42, The wave which strikes the first and second wave guiding chambers 31 and 41 in addition to the wave that flows into the first and second wave guiding holes 32 and 42 among the waves colliding with the front portion 11 of the first and second waveguides 10, And guided into the guide holes 32 and 42.

The waves thus introduced are moved from the entrance sides 32a and 42a of the first and second wave guide holes 32 and 42 to the wave attenuation space portion 50 through the exit sides 32b and 42b.

Here, the first wave guide hole 32 is formed at a downward angle as described above.

Therefore, considering the total height of the block 100 for attenuating the wave energy according to the present invention, most of the waves hitting the upper and lower ends of the front part 11 are transmitted through the first and second wave guiding parts 30 and 40 So that it is possible to prevent the phenomenon that the wave is overflowed.

Meanwhile, as described above, the first and second wave guiding portions 30 and 40 have a relatively smaller volume than the wave attenuation space portion 50.

Therefore, when the wave traveling through the first and second wave induction units 30 and 40 at a constant pressure is discharged to the wave attenuation space unit 50, the pressure is lowered due to the abrupt volume change, that is, the wave energy is attenuated Effect can be obtained.

The first wave guiding hole 32 of the first wave guiding portion 30 is formed at a downward angle and is equal to or inclined with respect to the inclination angle of the streamlined portion 51 formed in the wave attenuating space portion 50, The downward angle is formed at a similar angle, and the effect of attenuating the wave energy and the damage of the wave attenuation space 50 due to the wave can be obtained.

That is, when the wave moved to the first waveguide hole 32 is discharged through the outlet side 32b to the wave attenuation space part 50, the water drops to the lower part of the wave attenuation space part 50 when the water pressure is weak , And when the water pressure is high, a part of the waves may be sprayed onto the streamlined portion 51. [

If the wave attenuation space part 50 has a rectangular shape, there is a problem that if the waves strike the wave surface for a long period of time, the surface to be collided is broken.

However, since the angle of the first wave guide hole 32 is formed to be similar to the angle of inclination of the streamlined portion 51 in consideration of the angle at which the wave is projected, the present invention can prevent the wave damage space 50 from being damaged It is possible to obtain an attenuation effect of the wave energy by guiding the wave without violating the jetting path of the wave.

Particularly, the outlet sides 32b and 42b of the first and second wave induction holes 32 and 42 formed in the wave attenuation space 50 are formed at adjacent positions, so that the first and second wave induction holes 32 , And 42, respectively, are caused to collide with each other, so that the wave energy can be attenuated.

In the meantime, according to the present invention, it is possible to prevent the phenomenon that the waves are flowed while attenuating the wave energy by introducing a wave that moves to the lower end portion through the wave assist guide hole 17 on the lower side of the front part 11 of the body part 10 do.

In particular, the auxiliary guiding hole 17 and the second wave guiding part 40 are also used as a passage through which waves can be discharged again after the waves are introduced.

Meanwhile, in the present invention, waves are absorbed through the first and second wave induction units 30 and 40 and the wave assist guide holes 17 to prevent the wave energy from being attenuated and thereby to prevent the overflow. The front portion 11 of the body 10 can be formed in a streamlined shape to prevent a part of the waves that have not flowed into the first and second wave guiding portions 30 and 40 and the wave- The effect can be obtained.

In order to construct the block 100 for attenuating the wave energy according to the present invention having the above-mentioned function and effect, the basing work must be performed in addition to the breaking work at the position to be installed.

After that, the fillet work should be performed on the work surface where the foundation picking work has been completed.

In this case, when the block 100 for attenuating the wave energy of the present invention is disposed by lifting the slab, the slab may fail to maintain a predetermined height by weight, that is, settlement may occur. Particularly, If the backfilling operation is performed in a state where the settling in the direction of the front part 11 of the display panel 100 occurs, the block 100 may be tilted forward and may be turned on.

Therefore, in the present invention, as shown in FIG. 10, in order to prevent the block 100 from attenuating the wave energy after filling the stones C1 higher than the planned height in anticipation of sinkage in the direction of the front part 11, It is essential that the work of forming the inclination angle (a) by filling only the bottom surface of the position where the portion 11 is disposed is further included.

When the filling of the stones C1 is completed as described above, the base plate 1 including the key 1a and the block 100 for attenuating the wave energy of the present invention are sequentially lifted and disposed as shown in FIG. 11 .

Here, a plurality of lifting holes 60 are formed in the block 100 for attenuating the above-described wave energy.

Since the lifting hole 60 is formed to penetrate to the wave attenuation space 50, the present invention can be easily lifted and disposed through a crane after inserting a normal wire (not shown) .

The extended length of the key 1a formed on the base plate 1 is extended from the front portion 11 to the rear portion 16 of the body portion 10 constituting the block 100 for attenuating the wave energy And it is formed at a position where it can be inserted into the wave attenuation space part 50 at a position where the wave assist guide hole 17 formed at the lower part of the front plate 11 is not formed, .

When the block 100 for attenuating the wave energy is laminated, the key 18 formed on the upper side surface portion 14 is also formed in the same size and position as the base plate 1 described above.

On the other hand, when the arrangement of the block 100 is completed, the block 100 for attenuating the boundary surface and the wave energy is laid and cured in the absence of the concrete as shown in FIG.

Then, the upper concrete (C3) is placed and cured on the upper side of the block (100) for attenuating the wave energy, and the floor material (2) and the railing (3) (See FIG. 13).

That is, in the construction method of the present invention, even if settlement occurs due to its own weight at the time of construction of the block 100 for attenuating the wave energy, construction is performed in consideration of the settlement, thereby improving workability, Effect can be obtained.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

C1: Stony stone C2: Plain concrete C3: Stony concrete
1: Base plate 1a: Key 2: Flooring material 3: Railing
10:
11: front part 12: left side part 13: right side part 14: upper side part
15: lower side portion 16: rear portion 17: wave assistant inducer 18: key
19: key groove R: concave portion
20: Overflow curvature portion
30: first wave induction unit
31: First wave guiding chamber
32: first wave guide hole 32a: inlet side 32b: outlet side
40: second wave guide portion
41: second wave guiding chamber
42: second wave guide hole 42a: inlet side 42b: outlet side
50: Wave attenuation space part
51: streamlined part
60: Lifting hole
100: Block to attenuate wave energy

Claims (5)

A body 10 made up of a front part 11, a left side part 12, a right side part 13, an upper side part 14, a lower side part 15 and a rear part 16;
A first portion extending from the front portion 11 of the body portion 10 toward the rear portion 16 for absorbing wave energy when the wave hits the front portion 11 of the body portion 10, A first wave guiding part 30 composed of a wave guiding chamfer 31 and a first wave guiding hole 32;
A second wave guiding part 40 formed below the first wave guiding part 30 and composed of a second wave guiding chamber 41 and a second wave guiding hole 42;
The first and second wave induction parts 30 and 40 are connected to the first and second wave induction holes 32 and 42 of the first and second wave induction parts 30 and 40 by penetrating through the left and right side parts 12 and 13 of the body part 10, And a wave attenuation space part (50) having a streamlined part (51) formed on the upper side and a lower side opened,
A concave portion R is formed in the front surface portion 11 of the body portion 10 so as to concentrate the incident wave on the front surface portion 11 and a wave The auxiliary guide hole 17 is further included,
The first wave guiding hole 32 of the first wave guiding portion 30 is formed so as to be downwardly extended from the front portion 11 of the body portion 10 to the rear portion 16, When the wave introduced from the inlet side 32a passes through the first wave guide hole 32 and flows into the wave attenuation space part 50 through the outlet side 32b, the wave is guided by the streamlined part 51, And the entrance side 42a and the exit side 42b of the second wave guide hole 42 formed in the second wave guide part 40 are formed horizontally, ,
The wave emitted from the outlet side 32b of the first wave induction hole 32 formed in the first wave induction portion 30 and the wave emitted from the outlet side 42b of the second wave induction hole 42 formed in the second wave induction portion 40, The outlet side 32b and the outlet side 42b are formed at adjacent positions so that the waves emitted from the outlet side can meet with each other,
The wave introduced into the body 10 is concentrated to the front portion 11 by the concave portion R and acts to guide the waves to the first and second wave induction portions 30 and 40. The first and second wave induction holes 30 and 40 so that the wave guided to the wave attenuation space part 50 is discharged to the outside by the opened lower side surface of the wave attenuation space part 50 and the wave assisted guide hole 17 formed in the body part 10 A block that attenuates wave energy characterized by acting.

delete delete The method as claimed in claim 1, wherein the upper side portion (14) of the body (10) further comprises a plurality of lifting holes (60) extending to the wave attenuation space portion (50) .
A body portion having a front portion, a left side portion, a right side portion, an upper side portion, a lower side portion, and a rear portion;
A first wave guiding part including a first wave guiding chamber and a first wave guiding part extending in a direction from a front part to a rear part of the body part to attenuate wave energy by introducing a wave when the wave hits the front part of the body part;
A second wave guiding part formed below the first wave guiding part and including a second wave guiding chamber and a second wave guiding part;
A wave attenuation space part formed in a shape penetrating the left and right side parts of the body part and formed on the upper side of the streamlined part connected to the first and second wave induction holes of the first and second wave induction parts, ≪ / RTI >
The front portion of the body portion may have a concave inner portion concave to concentrate the incident wave to the front portion and a wave assist induction hole formed to inflow and outflow the wave to the bottom side,
The first wave guiding hole of the first wave guiding part is formed so as to be downward as it extends from the front part of the body part to the rear part so that the wave introduced from the inlet side of the first wave guiding hole passes through the first wave guiding hole, The wave guiding hole formed in the second wave guiding portion is formed so as to form an inlet side and an outlet side of the second wave guiding hole, And a wave guide member disposed at an adjacent position so that the wave emitted from the outlet side of the first wave guide hole formed in the first wave guide portion and the wave emitted from the outlet side of the second wave guide hole formed in the second wave guide portion can meet with each other The method comprising the steps of:
Performing a roughing and a roughing at a position where a block for attenuating wave energy is to be installed;
Fill the stones on the bottom of the foundation, but fill the stones higher than the planned height by anticipating the sediment settlement by the weight of the block that attenuates the wave energy. Filling the bottom surface in the direction of the front portion further than the bottom surface of the other portion in order to prevent conduction of the block that attenuates the wave energy due to the wave energy;
Disposing a base plate on which a key is formed on the bottom surface filled with the crushed stone, and stacking a block for attenuating the wave energy on the base plate;
Placing an unfilled concrete for backfilling in a space behind the block for attenuating the wave energy;
And installing a standing concrete, a floor material, and a railing on the upper side of the block for attenuating the wave energy.

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