KR102509284B1 - The curved breakwater block for the coastal sand erosion prevention - Google Patents

Abstract

The present invention relates to a curved submerged breakwater block for preventing coastal sand erosion. More particularly, the present invention relates to a curved submerged breakwater block for preventing coastal sand erosion that allows some of the seawater flowing in front of the submerged breakwater block to attenuate wave energy while flowing backward and downward through the submerged breakwater block, causes the rest of the seawater to flow upward along the front of the submerged block and collide with the seawater flowing over the upper part of the submerged breakwater block, allowing the remaining wave energy to be further attenuated, and also dredges the sand deposited in the space between the front and rear submerged breakwater blocks to be treated.

Description

Coastal sand erosion prevention curved surface block {THE CURVED BREAKWATER BLOCK FOR THE COASTAL SAND EROSION PREVENTION}

This invention relates to a curved submerged block for preventing coastal sand erosion, and in particular, part of the seawater flowing in front of the submerged block penetrates the submerged block to allow wave energy to be attenuated while flowing backward and downward through the submerged block, and the rest of the seawater It flows upward along the front of the latent block and collides with the seawater flowing over the top of the latent block so that the remaining wave energy can be further attenuated, and sand deposited in the space between the latent block at the front and the latent block at the rear It relates to a curved latent block for preventing coastal sand erosion that can be dredged and treated.

In general, sofa structures are various types of breakwaters installed for the purpose of dispersing or dissipating wave energy. Surferged Breakwater, a subsurface structure that reduces the coastal breakwater energy that changes in relatively shallow water depth while waves of the distant sea approach the coast there is

Submersible blocks have the same shape installed in the transverse direction, thereby reducing wave energy and playing a role in preventing marine erosion to some extent. As a result, it moves in the opposite direction of the coast, that is, to the side of the jam, and moves in the direction of the far sea through between the jams, or is deposited inside the jams installed in layers, causing the function of the jams to deteriorate.

As a prior art, a sofa structure for fishery production source of Patent Registration No. 10-1543012 (2015.08.03) has been proposed, and the proposed technology is caused by separation and damage of the sofa structure when a partial subsidence occurs on the sea floor. There was a problem in that the function of the latent fish was not provided, and only the function of the artificial reef was provided.

As another prior art, Patent Registration No. 10-1104810 (2012.01.04) has proposed a functional sofa block for transplanting marine animals to marine forests and a sofa structure using the same, and the proposed technology is that the X-shaped latent structure is mutually Although they are installed in a combined and mutually assembled form, the inside of the structure is complicated and the wave damping effect is reduced when algae propagate, causing scour phenomenon to occur at the bottom seafloor junction on the far sea side, resulting in differential subsidence of the seafloor. occurs, there is the same problem as the array shape is deformed while tilting.

This prior art had a problem in that it could not provide the function of the latent agent due to the sand being moved and deposited into the interior of the sofa structure by the ocean current.

Registered Patent Publication No. 10-1543012 (2015.08.03) Registered Patent Publication No. 10-1104810 (2012.01.04)

This invention allows some of the wave energy to be attenuated while a part of the seawater passes through the submerged block, and the remaining seawater collides with the seawater passing through the upper part of the submerged block so that the remaining wave energy is further attenuated, and the effective reduction of wave energy Therefore, it is possible to reduce the number of latent blocks required for the latent structure, so that the workability is facilitated and the cost can be reduced. It was made so that it could be laid on the shore after dredging.

"으로 형성되어 전면은 상기 몸체부(10)의 하부에서 상부로 완만한 곡선으로 형성되는 전방곡면(101)으로 형성되고, 후면은 상기 몸체부(10)의 하부에서 상부로 경사지게 형성되는 후방경사면(102)으로 형성되며, 상기 몸체부(10)의 저면은 바닥수평면(103)으로 형성되어지고, 상기 헤드부(20)의 측단면은 헤드전방면(201), 헤드상부면(202) 및 헤드하부면(203)으로 형성되어지되, 상기 헤드상부면(202) 및 헤드하부면(203)은 수평지게 형성되어지는 것을 특징으로 한다.In the present invention, in the curved surface-type locking block (A) for preventing coastal sand erosion, which is installed lower than the average water level of the coast in order to prevent the erosion of coastal sand by waves, the locking block (A) is the upper part of the body portion (10). The head portion 20 protrudes forward and is integrally formed, and the side end surface of the body portion 10 is "

", the front surface is formed as a front curved surface 101 formed in a gentle curve from the bottom to the top of the body portion 10, and the rear surface is formed as a rear inclined surface formed inclined from the bottom to the top of the body portion 10. 102, the bottom surface of the body portion 10 is formed as a bottom horizontal surface 103, and the side end surface of the head portion 20 is the head front surface 201, the head upper surface 202 and It is formed as the lower head surface 203, and the upper head surface 202 and the lower head surface 203 are characterized in that they are formed horizontally.

In addition, the bottom horizontal surface 103 of the body portion 10 is provided with anti-slip grooves 103a on the left and right sides, and the left and right surfaces 104 of the body portion 10 have convex portions 104a and concave portions ( 104b) is characterized in that it is provided vertically.

In addition, the body portion 10 is provided with a plurality of vertical through passages 110 so that seawater penetrates from the front to the rear of the body portion 10, and the plurality of vertical through passages 110 are vertically It is formed in an elongated quadrangular shape and is formed vertically inside the body portion 10, and the vertical height of the vertical through passage 110 is from the front curved surface 101 to the rear inclined surface 102 of the body portion 10 It is characterized in that it is formed higher as it goes up.

In addition, the head part 20 is provided with a plurality of horizontal through passages 210 so that seawater passes from the lower part to the upper part of the head part 20, and the plurality of horizontal through passages 210 are formed in the head part. It is provided to have a horizontal shape inside the 20, and the horizontal width of the horizontal through passage 210 is provided to become narrower from the lower head surface 203 to the upper head surface 202, and the horizontal through passage ( 210) The rear part is characterized in that it is integrally formed with the same curvature as the curved surface of the front curved surface 101 of the body part 10.

In addition, the lower head surface 203 of the head portion 20 is provided with a blocking portion 220 stepwise to block the flow of seawater, and the blocking portion 220 is the head front surface of the head portion 20 (201) It is characterized in that it is provided in the form of a gentle downward slope from the lower end to the blocking part (220).

This invention can obtain the effect of allowing some of the wave energy to be offset when passing through the latent block in the process of allowing some of the seawater to pass through the latent block and allowing the rest to flow upward.

In addition, through this, it is possible to obtain an effect in which the remaining wave energy can be attenuated by interference in which the remaining seawater is moved upward by the submerged block and collides with the seawater passing through the upper part of the submerged block.

In addition, the rest of the seawater moved upward by the locking block is accelerated by the horizontal passage consisting of the inlet side having a wide shape at the bottom and the discharge side having a narrow shape at the top, thereby obtaining the effect of further increasing the interference rate. can

In addition, through this, an effect of further increasing the attenuation rate of wave energy as a whole can be obtained.

In addition, since the anti-slip groove is provided on the bottom of the middle block having a triangular shape, it is possible to obtain an effect of preventing flow while stably supporting the bottom.

In addition, the blocking part provided at the lower part of the head part prevents a part of the ocean current moving from the front side of the blocking block to the upper part from moving in the reverse direction and moves only to the upper part, thereby increasing the amount of seawater passing through the horizontal pipe passage. effect can be obtained.

In addition, by allowing the latent block on one side and the latent block on the other side to be coupled by the concave-convex portion, an effect of maintaining a high bonding force can be obtained.

In addition, by allowing sand to be deposited between the latent structures formed by combining the latent blocks and the latent structures, it is possible to obtain an effect of preventing sand from being lost to the distant sea by ocean currents.

In addition, it is possible to obtain the effect of laying the accumulated sand on the shore after dredging using a dredger pump.

Figure 1 is a perspective view showing a latent structure installed in two rows by a curved latent block for preventing coastal sand erosion according to the present invention.
Figure 2 is a perspective view showing a curved latent block for preventing coastal sand erosion according to the present invention.
Figure 3 is a perspective view showing a curved latent block for preventing coastal sand erosion according to the present invention from the bottom.
Figure 4 is a perspective view showing by cutting the inside and outside of the curved latent block for preventing coastal sand erosion according to the present invention.
Figure 5 is a longitudinal cross-sectional view showing a curved latent block for preventing coastal sand erosion according to the present invention.
Figure 6 is a cross-sectional view showing a state in which the curved latent block for preventing coastal sand erosion according to the present invention is coupled.

An embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a jammer, which is a structure installed in two rows by a curved jammer block for preventing coastal sand erosion according to the present invention, and FIG. 2 is a perspective view showing a curved jammer block for preventing coastal sand erosion according to the present invention, Figure 3 is a perspective view showing a curved latent block for preventing coastal sand erosion according to the present invention from the bottom, and Figure 4 is a perspective view showing the inside and outside of the curved latent block for preventing coastal sand erosion according to the present invention, 5 is a longitudinal cross-sectional view showing a curved latent block for preventing coastal sand erosion according to the present invention, and FIG. 6 is a cross-sectional view showing a state in which the curved latent block for preventing coastal sand erosion according to the present invention is coupled.

The blocking block (A) according to this invention is installed lower than the average water level of the coast to prevent the sand on the coast from being eroded by the ocean current by maximally offsetting the wave energy of the seawater, while dredging the accumulated sand around it. To be laid again on the shore, as shown in Figures 1 to 6, it is provided to include the body portion 10 and the head portion 20.

The head part 20 is integrally formed on the upper part of the body part 10 so as to protrude forward.

"의 측단면을 갖도록 구비된 것으로, 전면은 몸체부(10)의 하부에서 상부로 완만한 곡선형태를 갖는 전방곡면(101)이 구비되고, 후면은 몸체부(10)의 하부에서 상부로 경사진 형태를 갖는 후방경사면(102)이 구비된다.Here, the body portion 10 is "

It is provided to have a side cross-section of ", the front side is provided with a front curved surface 101 having a gentle curve from the bottom to the top of the body portion 10, and the rear side is provided with a slope from the bottom to the top of the body portion 10. A rear inclined surface 102 having a picture shape is provided.

The front curved surface 101 is provided with a plurality of vertical through passages 110 penetrating to the rear inclined surface 102, and as shown in FIG. 110), the wave energy is attenuated while flowing backward.

The bottom surface of the body part 10 is provided as a bottom horizontal surface 103 as a way to stably settle on the seabed, and anti-slip grooves 103a are provided on the left and right sides of the bottom horizontal surface 103 so as to It is possible to prevent movement in a seated state. Preferably, the anti-slip groove 103a has a wide lower part and a narrow upper part.

The left and right sides 104 of the body portion 10 are provided with convex portions 104a and concave portions 104b vertically, so that as shown in FIG. It is possible to further prevent the body portion 10 from being twisted by having an interlocking shape. At this time, it is preferable that the convex part 104a and the convex part 104b have a trapezoidal shape so that a constant distance can be maintained while enabling easy engagement.

Therefore, in this invention, the wave energy is attenuated by the front curved surface 101 formed in a gentle curve from the bottom to the top of the body portion 10, in particular, the vertical through passage 110 formed inside the body portion 10 As a result, wave energy is further attenuated to prevent coastal sand from being eroded, and the coastal sand is accumulated behind the blocking block (A), so that it can be moved by dredging with dredging equipment.

The body portion 10 is provided with a plurality of vertical through-passages 110 so that seawater penetrates from the front curved surface 101 to the rear inclined surface 102 of the body portion 10, and the vertical through-passage 110 ) is formed vertically inside the body portion 10, and the vertical height of the vertical through passage 110 increases from the front curved surface 101 to the rear inclined surface 102 of the body portion 10. By forming, The speed of seawater is rapidly reduced on the rear inclined surface 102, which is rearward than on the front curved surface 101, which is the front of the vertical passage 110 of the body portion 10, and the wave energy is maximally offset, so that the sand on the coast It has the effect of preventing erosion by ocean currents. In addition, the vertical through passage 110 is formed so as to penetrate to the bottom horizontal surface 103 of the body portion 10, so that a part of the seawater can be moved to both sides of the bottom as well as the rear of the body portion 10, further Blue energy can be attenuated.

The head portion 20 has a side end surface having a front head surface 201, an upper head surface 202 and a lower head surface 203, and the upper head surface 202 and the lower head surface ( 203) is provided to have a horizontal shape.

The lower head surface 203 is provided with a plurality of horizontal through passages 210 passing through to the upper head surface 202, so that seawater flowing upward along the front curved surface 101 passes through the horizontal through passage 210. After being accelerated in the process, it can be ejected to the top of the head part 20.

The head part 20 is provided with a plurality of horizontal through passages 210 so that seawater passes from the lower head surface 203 of the head part 20 to the upper head surface 202, and the horizontal through passages 210 is provided to have a horizontal shape in the head part 20, and the horizontal width of the horizontal through passage 210 is formed narrower from the lower head surface 203 to the upper head surface 202, so that the head part The seawater passing through the horizontal passage 210 of (20) is lowered in pressure as the speed of seawater increases in the upper part than in the lower part of the head part 20 according to Bernoulli's principle, so that the upper part of the blocking block (A) The effect of further attenuation of the wave energy can be expected.

In addition, the rear of the horizontal through passage 210 is integrally formed with the same curvature as the curved surface of the front curved surface 101 of the body portion 10, so that the flow of seawater can be easily achieved.

The lower head surface 203 is provided with a blocking portion 220 having a stepped shape to prevent a portion of the seawater that has moved along the front curved surface 101 from flowing in the reverse direction again.

A blocking portion 220 for blocking the flow of seawater is provided at the front of the front of the lower head surface 203 of the head portion 20, and the blocking portion 220 is provided in front of the head of the head portion 20 It is preferable to form a gentle downward curve or a downward slope from the lower end of the side 201 to the blocking portion 220, and the head front surface 201 has the shape of an inclined surface with the lower end protruding forward. This is to ensure that seawater can be easily branched into the upper and lower parts of the head part 20 while preventing seawater from colliding at right angles.

A haunch member 230 is provided at the part where the upper end of the front curved surface 10 of the body part 10 and the lower head surface 203 of the head part 20 come into contact, thereby reducing the head part 20. While preventing destruction of the seawater moved along the front curved surface 101 can be smoothly branched and moved toward the horizontal passage 210.

10: body part 20: head part
101: forward curved surface 102: rear inclined surface
103: floor horizontal surface 110: vertical through passage
103a: sliding prevention groove 104: left and right sides
104a: Iron part 104b: Lumbar part
201: head front surface 202: head upper surface
203: lower head surface 210: horizontal through passage
220: blocking unit

Claims (5)

In the curved anti-locking block (A) for preventing coastal sand erosion, which is installed lower than the average water level of the coast in order to prevent erosion of coastal sand by waves,
The locking block (A) is integrally formed with the head portion 20 protruding forward on the top of the body portion 10, and the side end surface of the body portion 10 is "

", the front surface is formed as a front curved surface 101 formed in a gentle curve from the bottom to the top of the body portion 10, and the rear surface is formed as a rear inclined surface formed inclined from the bottom to the top of the body portion 10. 102, the bottom surface of the body portion 10 is formed as a bottom horizontal surface 103, and the side end surface of the head portion 20 is the head front surface 201, the head upper surface 202 and It is formed of the lower surface of the head 203, and the body portion 10 is provided with a plurality of vertical through passages 110 so that seawater passes from the front to the rear of the body portion 10, The vertical through passage 110 is formed in a vertically elongated quadrangular shape, and is formed vertically inside the body portion 10, and the vertical through passage 110 has a vertical height on the front curved surface of the body portion 10. It is formed to be higher as it goes from 101 to the rear inclined surface 102, and the head part 20 is provided with a plurality of horizontal through passages 210 so that seawater penetrates from the lower part to the upper part of the head part 20 However, the plurality of horizontal through passages 210 are provided to have a horizontal shape inside the head portion 20, and the horizontal width of the horizontal through passage 210 ranges from the lower head surface 203 to the upper head surface 202. ), and the rear of the horizontal through passage 210 is integrally formed with the same curvature as the curved surface of the front curved surface 101 of the body portion 10 for preventing coastal sand erosion, characterized in that Curved locked block.
According to claim 1,
The bottom horizontal surface 103 of the body part 10 is provided with anti-slip grooves 103a on the left and right sides, and the left and right surfaces 104 of the body part 10 have convex parts 104a and recessed parts 104b. A curved anti-locking block for preventing coastal sand erosion, characterized in that it is provided vertically.
According to claim 1,
The vertical through passage 110 provided in the body part 10 is provided to penetrate to the bottom horizontal surface 103 of the body part 10.
delete According to claim 1,
The lower head surface 203 of the head part 20 is provided with a blocking part 220 stepwise to block the flow of seawater, and the blocking part 220 is the head front surface 201 of the head part 20 ) Is provided in the form of a gentle downward slope from the lower end to the blocking part 220 A curved anti-locking block for preventing coastal sand erosion, characterized in that.

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