KR102447163B1 - mounting equipment of sand catching unit - Google Patents

Abstract

The fixing equipment of the lost sand collection device for preventing coastal erosion according to the present invention has a structure in which a plurality of plates are overlapped in parallel with each other and partially joined to adjacent plates, and a filling part that expands laterally to form a plurality of filling spaces and a plurality of lost sand collecting devices comprising a resistance film provided at the upper end of the filling section to fix the position installed on the seabed, arranged to support the lost sand collecting device from below, and bound to each other by a connecting wire It consists of a support block, a fixed frame seated on the upper end of the filling part of the lost sand collecting device and bound to the connection wire, and an anchor mechanism fastened to the support block and embedded in the seabed.
The support block is in the form of a disk, and has a round bottom and a flat top to receive downward lift by the horizontal flow of seawater.
The support block is formed in a form in which a vertical through hole is formed in the center.
A locking bar is provided in the vertical through hole of the support block, and the connecting wire is wound around the locking bar of each support block, so that each support block is bound to each other.
The fixed frame is formed in a grid shape in which a plurality of vertical bars and a plurality of horizontal bars are combined.
The connecting wire and the fixing frame for binding the support block are bound to each other by a plurality of binding bands.
The anchor mechanism includes a post equipped with a hook part at the upper end, a conical member configured at the lower end of the post, and a plurality of curved engaging pieces provided on the outer surface of the conical member.
According to the present invention as described above, the downward lift phenomenon by the support block and the resistance phenomenon by the anchor mechanism are combined, so that the installation position of the lost sand collection device is stably fixed even in the special condition of the seabed, so it is a great help in preventing coastal erosion. There is an advantage to be

Description

Mounting equipment of sand catching unit for preventing coastal erosion

The present invention relates to a fixing device for stably fixing a lost sand collecting device for preventing coastal erosion to the seabed.

Coastal sand is created by depositing sand supplied from rivers and sand dunes on land. This will keep the sandy beach.

As the city develops, the amount of sand flowing into the sea from the land or river is drastically reduced by paving roads and covering the river bed and river slope with concrete or stones, so that the shortage of sand to maintain the sandy beach has occurred. As the frequency of high wave moisture resistance increases with climate warming, coastal erosion is accelerating as coastal sand moves away from the land.

Various methods are being tried to prevent erosion caused by the loss of coastal sand. As an example of such a method, methods such as the forced breaking method using structures, etc. and the artificial yield method in which the dredged sand is forcibly moved to the shore are applied.

Here, in the forced breaking method, there is a submersible method in which an underwater structure is installed on the seabed away from the shore to suppress waves, and a shore protection method in which a structure is installed close to the shore or inside the shoreline to block the influence of waves to the land side.

The submerged method is a method of blocking only high waves using a structure under the surface of the water, that is, a subsurface depending on the shape of the structure, and low and high waves using a structure that protrudes by a certain height above the surface of the water. They are all separated in such a way that they are blocked.

On the other hand, in the case of the forced breaking method in this prior art, although coastal erosion is prevented to some extent, the deformation of the shoreline is caused by scouring of the beach or advancing and retreating the shoreline depending on the shape and location of the structure. There will be problems that will lead to it.

In addition, since Jamjae and Ianje require strength enough not to be swept away by ocean currents or waves, most of them are made of concrete structures to satisfy these conditions. These underwater structures not only interfere with the operation of ships due to their characteristics, but also have a negative effect on the activation of marine leisure sports.

According to the shoreline method, it is impossible to prevent the loss of sand because waves are pushed into the shoreline and scour occurs on the shoreline.

The artificial sheep bean method, which artificially inserts sand, not only requires a lot of cost for sand collection and transportation, but also has a burden of continuously supplying sand because it is not a fundamental measure to prevent the loss of sand.

In order to solve the problems of the prior art, as shown in FIG. 1 , a lost sand collecting device 10 capable of effectively suppressing coastal erosion by collecting sand swept away by sea waves has been devised.

The conventional lost sand collecting device 10 has a structure in which a plurality of plates are overlapped in parallel with each other and partially joined to each other at regular intervals in the longitudinal direction, and is expanded laterally to form a plurality of filling spaces. It consists of a filling part and a resistive film part provided on the upper end of the filling part.

According to such a conventional lost sand collecting device 10, the flow of beach currents from the shore to the sea is suppressed, and erosion of the shore is alleviated by collecting the sand flowing along the beach flow, so it helps to preserve the coastal sandy beach. becomes this

On the other hand, according to the prior art, conditions such as the distribution area and installation location of the lost sand collecting device 10 must be carefully set according to the shape of the coast and the flow of the ocean current to create the optimal coastal protection effect.

However, since the conventional sand loss collecting device 10 is installed in such a way that it is simply seated on the sea floor, it is continuously affected by the flow of seawater, and thus has a problem that the installation position is slightly changed.

In particular, when the seabed on which the lost sand collecting device 10 is seated is made of sand, the sand on the seabed is moved by the current, and as time goes by, it may greatly deviate from the initially set installation position. If it is moved from the installed location, it cannot function as intended, and there is a risk that it will be washed away to the beach and become waste.

Therefore, for the stable use of the lost sand collecting device 10, it is urgent to devise a facility for stably fixing it so that its position is not changed even by the current.

An object of the present invention is to solve the problems of the prior art as described above, and an object of the present invention is to provide a fixing facility for stably fixing the position of the lost sand collecting device installed on the seabed so that the position does not change.

The fixing equipment of the lost sand collection device for preventing coastal erosion according to the present invention has a structure in which a plurality of plates are overlapped in parallel with each other and partially joined to adjacent plates, and a filling part that expands laterally to form a plurality of filling spaces and a plurality of lost sand collecting devices comprising a resistance film provided at the upper end of the filling section to fix the position installed on the seabed, arranged to support the lost sand collecting device from below, and bound to each other by a connecting wire It consists of a support block, a fixed frame seated on the upper end of the filling part of the lost sand collecting device and bound to the connection wire, and an anchor mechanism fastened to the support block and embedded in the seabed.

The support block is in the form of a disk, and has a round bottom and a flat top to receive downward lift by the horizontal flow of seawater.

The support block is formed in a form in which a vertical through hole is formed in the center.

A locking bar is provided in the vertical through hole of the support block, and the connecting wire is wound around the locking bar of each support block, so that each support block is bound to each other.

The fixed frame is formed in a grid shape in which a plurality of vertical bars and a plurality of horizontal bars are combined.

The connecting wire and the fixing frame for binding the support block are bound to each other by a plurality of binding bands.

The anchor mechanism includes a post equipped with a hook part at the upper end, a conical member configured at the lower end of the post, and a plurality of curved engaging pieces provided on the outer surface of the conical member.

According to the present invention as described above, the downward lift phenomenon by the support block and the resistance phenomenon by the anchor mechanism are combined, so that the installation position of the lost sand collection device is stably fixed even in the special condition of the seabed, so it is a great help in preventing coastal erosion. There is an advantage to be

Figure 1: A view showing a conventional lost sand collecting device
Figure 2: A view showing the separated components of the equipment for collecting lost sand according to the present invention
Figure 3: A view showing a state in which the components of the fixed equipment for collecting lost sand according to the present invention are combined
Figure 4: A view showing the fastening configuration of the connecting wire and the anchor mechanism to the support block in the present invention
Figure 5: A view showing a downward lift phenomenon by seawater flowing around the support block in the present invention
Figure 6a, 6b: a view showing the resistance phenomenon of the support block and the anchor mechanism in the present invention

Hereinafter, specific contents for carrying out the present invention will be described in detail with reference to FIGS. 2 to 6B .

The fixing equipment according to the present invention is for fixing the position where the lost sand collecting device 5 is installed on the seabed. The adjacent plates 12 are partially joined to each other, and are formed of a filling part 10 extending in the lateral direction to form a plurality of filling spaces, and a resistance film part 14 provided on the upper end of the filling part 10 . .(See Fig. 1)

And, as shown in FIGS. 2 and 3, the fixing equipment is arranged to support the lost sand collecting device 5 under it, and a plurality of support blocks 20 bound to each other by a connecting wire 22; , a fixed frame 30 seated on the upper end of the filling part 10 of the lost sand collecting device 5 and bound to the connection wire 22, and the anchoring block 20 and fastened to the seabed and embedded in the seabed. It consists of an instrument (40).

The support block 20 is in the form of a disk, and has a round bottom 201 and a flat top 202 so as to receive downward lift by the horizontal flow of seawater, and a vertical through hole 20a is formed in the center thereof. .

Preferably, the support blocks 20 are spaced apart from each other at regular intervals to form an even support state with respect to the lost sand collecting device 5 .

As shown in FIG. 4, a locking bar 24 is provided in the vertical through-hole 20a of the support block 20, and each of the connecting wires 22 is wound around the locking bar 24. The support blocks 20 are bound to each other.

The fixed frame 30 is formed in a lattice form in which a plurality of vertical bars 301 and a plurality of horizontal bars 302 are combined, and the connecting wire 22 and the fixed frame that bind the support block 20 together. (30) is bound to each other by a plurality of binding bands (26).

The anchor mechanism 40 includes a post 42 provided with a hook part at the upper end, a conical member 44 configured at the lower end of the post 42 , and a plurality of curved portions provided on the outer surface of the conical member 44 . It consists of a possible engaging piece (46).

The anchor mechanism 40 passes through the vertical through hole 20a of the support block 20, the hook portion of the upper end of the post 42 is caught on the locking bar 24, and the conical member 44 is embedded in the seabed. is installed, and depending on the conditions, it may be installed so that the hook portion is caught on the connecting wire 22 that binds each of the support blocks 20 .

According to the present invention configured as described above, the support block 20 is basically installed in such a way that it is buried in the sand of the seabed, and the lost sand collecting device 5 is seated on the seabed.

In addition, the fixed frame 30 is installed to cover the filling part 10 of the lost sand collecting device 5 , and the resistance film part 14 of the lost sand collecting device 5 is vertical to the fixed frame 30 . The bar 301 and the horizontal bar 302 protrude upward through the lattice gap.

The anchor mechanism 40 passes through the vertical through hole 20a of the support block 20 from top to bottom, and the hook portion is caught on the locking bar 24, and the conical member 44 is embedded in the seabed.

The position fixing action of the lost sand collecting device (5) according to the present invention is that the fixing frame (30) pressing the lost sand collecting device (5) is bound to the connecting wire (22) by the binding band (26), and the The connection wire 22 is connected to the support block 20, and in the structure where the anchor mechanism 40 is caught on the support block 20, the fixing action of the support block 20 and the anchor mechanism 40 is combined, so that the connection wire By being applied to the fixed frame 30 through the 22, the movement of the fixed frame 30 is suppressed, and as a result, the position of the lost sand collecting device 5 is stably maintained by the fixed frame 30. .

And, the fixing action is made by the downward lifting force phenomenon according to the shape characteristic by the support block 20, and the fixing action is made by the resistance phenomenon by the engaging piece 46 by the anchor mechanism 40. The description of each fixation action is as follows.

First, the downward lifting action is due to the shape characteristics of the support block 20 having a round bottom surface 201 and a flat top surface 202, and according to this, as shown in FIG. When the flow of seawater in the horizontal direction is formed in the periphery, since the flow of seawater flowing along the bottom surface 201 is faster than the flow of seawater flowing along the upper surface 202, the support block 20 is directed downward. A lift force, that is, a downward lift force is applied, and accordingly, a phenomenon in which the support block 20 is pressed down occurs.

Therefore, it can be seen that the stronger the flow of seawater, the stronger the downward lifting force applied to the support block 20 is also formed, so that a stronger fixing action is made.

And, the resistance phenomenon of the anchor mechanism 40 occurs when the external force that is drawn upwardly acts on the anchor mechanism 40, the locking piece 46 interferes with the surrounding sand and spreads.

That is, as shown in FIGS. 6A and 6B , when the locking piece 46 is unfolded by the anchor mechanism 40 being drawn upward, the resistance area by the locking piece 46 is further increased, so as not to be separated from the sea floor. The phenomenon of forming a stronger resistance will occur.

On the other hand, when the fixing equipment of the present invention is installed, as described above, since the support block 20 is basically buried in the sand of the seabed, the support block 20 is not greatly affected by the flow of seawater. can be seen (see Fig. 6a).

Therefore, it can be seen that the influence of the fixing action by the resistance phenomenon by the anchor mechanism 40 is greater than the downward lift phenomenon by the support block 20 at the initial stage of installation of the fixing equipment.

However, since the sand of the seabed is a mixture of seawater and sand, unlike land on land, even if the support block 20 is buried in the seabed, the flow of seawater is also accelerated by typhoons or strong currents. When this occurs, the flow of seawater and sand is generated by this influence on the seabed as well, and the downward lift force that presses the support block 20 downward is applied.

Therefore, even in a state in which the support block 20 is buried in the seabed, the action of the downward lifting force is made to some extent.

And, when the sand on the seabed is swept away over time and the support block 20 is exposed from the sand, since the downward lift force is applied to the support block 20 by the flow of seawater, it is strongly affected by the downward lift phenomenon. (see Fig. 6b)

Therefore, according to the present invention, the fixing action by the support block 20 and the anchor mechanism 40 is properly combined to ensure that the lost sand collecting device 5 is firmly fixed in spite of changes in the seabed conditions.

5: collection device 10: filling part
20: support block 20a: vertical through hole
201: bottom 202: top
22: connecting wire 24: locking bar
30: fixed frame 301: vertical bar 302: horizontal bar
40: anchor mechanism 42: post 421: hook portion
44: conical member 46: catch piece

Claims (7)

A filling part 10 in which a plurality of plates 12 are overlapped in parallel with each other and partially joined to adjacent plates 12, and extending in the lateral direction to form a plurality of filling spaces, and the filling part 10 ) for fixing the position of the sand lost sand collecting device 5 comprising the resistance film portion 14 provided at the upper end of the seabed,
a plurality of support blocks 20 arranged to support the lost sand collecting device 5 under it and bound to each other by a connecting wire 22;
a fixed frame 30 seated on the upper end of the filling part 10 of the lost sand collecting device 5 and bound to the connection wire 22;
An anchor mechanism 40 fastened with the support block 20 and embedded in the seabed
is made, including

The support block 40 is in the form of a disk, and has a round bottom and a flat top to receive downward lift by the horizontal flow of seawater, and is formed in a form in which a vertical through hole 20a is formed in the center,
A locking bar 24 is provided in the vertical through-hole 20a, and the connecting wire 22 is wound around each locking bar 22 so that each support block 20 is bound to each other.
Fixing equipment of the lost sand collection device, characterized in that. delete delete delete The method of claim 1,
The fixed frame 30 is formed in a grid shape in which a plurality of vertical bars 301 and a plurality of horizontal bars 302 are combined.
Fixing equipment of the lost sand collection device, characterized in that.
6. The method of claim 5,
The connection wire 22 and the fixing frame 30 for binding the support block 20 are bound to each other by a plurality of binding bands (26).
Fixing equipment of the lost sand collection device, characterized in that.
7. The method of claim 6, wherein the anchor mechanism (40)
A post 42 equipped with a hook portion 421 at its upper end, a conical member 44 configured at the lower end of the post 42, and a plurality of curved engaging pieces provided on the outer surface of the conical member 44 (46) consisting of
Fixing equipment of the lost sand collection device, characterized in that.

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