KR102190017B1 - An anchor type of floating breakwater system - Google Patents

Abstract

The present invention aims to provide an anchor-type floating breakwater system which is able to connect an anchor-type mooring apparatus to a structure of a buoy to connect one or more buoys, so as to block the wave coming from an external sea and make the flow of the wave gentle. According to the present invention, the anchor-type floating breakwater system assembles a buoy by fastening two to five floating modules (210) by a fastening member (211), forms a breakwater block by connecting a plurality of buoys by a fixing shaft (300), and has an anchor-type mooring apparatus formed on each lower side of the buoys. The mooring apparatus includes two vertical steel wires (22) fixed to the weight (31) to be respectively connected to side surface steel wires (21). The side surface steel wires meet as horizontal steel wires to form a single steel wire. The present invention aims to install a floating breakwater system on the sea and thus, make it easy to perform work on the sea when a fish farm or an offshore solar power facility or the like is installed. That is, in many cases, it is very hard to work on the sea since the waves or flows move in the sea. Accordingly, the present invention aims to allow a user who performs work on a fish farm or an offshore solar power facility to easily perform the work on the sea by breaking the wave coming from an outer sea to make the flow gentle.

Description

An anchor type of floating breakwater system and its construction method

The present invention relates to an anchor-type floating sofa system, and more particularly, since a farm or solar power is installed in the sea, there are cases where the efficiency of work is greatly reduced even in small waves when working in the sea. In this case, it is intended to provide a floating sofa system and construction method using an anchor type mooring device to facilitate work by suppressing waves or waves of the sea.

In general, breakwaters are installed in ports to prevent waves coming from the sea. Such a breakwater is an essential structure to protect the moored ships and facilities by extinguishing or canceling the waves incident into the port to calm the inner port.

In order to construct such a breakwater, it is necessary to construct a breakwater suitable for the port in consideration of the maximum wave size at the construction location, ground conditions, and construction methods.

Conventional breakwaters were constructed in a structure in which a concrete structure or rock (masonry) was put into the ocean by gravity, and a levee was built up from the seabed.

However, such a conventional fixed breakwater has the advantage of effectively blocking waves coming from the open sea, but construction is impossible in the case of soft ground or deep water. In addition, it is uneconomical, such as excessive construction cost and long construction period. Also, there is a problem of increasing marine pollution as the water quality in the inner port deteriorates by blocking the seawater circulation in the inner and outer ports, and there is a problem of increasing marine pollution. There was a problem that the visibility of the port was unstable and the view of the port was damaged.

In addition, it is not possible to install a breakwater to protect marine leisure facilities such as fish farms or marinas installed in the open sea, or to block waves of surroundings when working in the sea. To this end, in recent years, floating breakwaters that can be easily installed in the open sea in deep water are receiving great attention as a new sofa system.

In the related art Patent Publication No. 2010-0070631, a floating breakwater is disclosed. The floating breakwater reduces the pushing force by the waves applied to the floating body by installing a number of breaking wave pillars in the middle of the floating body and the structure and passing the waves using the breaking wave pillars. The goal is to provide an improved floating breakwater that can be used for a variety of purposes by keeping the surface stable, as well as to greatly improve the breaking ability by using breaking pillars.

However, such a conventional floating breakwater has a problem that it is not easy to install in a deep water depth.

Korean Patent Publication No. 2010-0070631 (2010. 06. 28.)

The present invention is to solve the above problems, the purpose of which is to connect an anchor type mooring device to the structure of a buoyant body, and by connecting one or more buoyancy bodies to prevent the wave of waves coming from the open sea to calm the wave. It is for sake.

The sofa system using the anchor type mooring device can be easily installed even in deep seas, thereby reducing cost, and also can be easily moved and installed.

The present invention is invented to achieve the above object, and the anchor type floating sofa system assembles a buoyant body by fastening 2 to 5 floating modules 210 with a fastening member 211, and the buoyancy body is a fixed shaft A sofa block is formed by connecting a plurality of pieces by means of 300, and an anchor type mooring device is formed at each lower part of the buoyant body, wherein the mooring device has two vertical steel wires 22 fixed to the weight shaft 31 Each of the side steel wires 21 is connected, and the side steel wires meet with a horizontal steel wire 20 to form a steel wire that is connected in a single ring shape.

The fastening member 211 has fastening grooves 209 formed on both sides of the floating module 210 in the shape of fastening members 211, and the floating module 210 is connected to and combined to assemble the buoyant body. Each of the fastening members 211 is inserted into the fastening groove of the module 210 to a predetermined depth, and the bracket of the fastening member protrudes downward so that the fixing shaft 300 can be inserted, wherein the fastening member has a hole 212 ) Is formed of a bracket, a wing member 213 formed on the bracket, and a head member 214 formed above the wing member.

Fixing devices capable of fixing the buoyant body are installed at both extreme ends of the buoyant body to support the buoyant body from both sides to moor the buoyant body.

The present invention is to facilitate work in the sea when a floating sofa system is installed in the sea, such as a farm or an aquatic solar facility. In other words, in Badang, waves or waves are always fluctuating, so it is often very difficult to work at sea. In this way, when working in a farm or offshore solar facility, it is to facilitate offshore work by crushing the waves coming from the open sea to calm the waves.

In addition, when a large wave occurs on the inland water surface, the floating sofa system can be installed to easily perform water work.

The floating sofa system using the anchor type mooring device of the present invention is easy to install because it does not fix a buoyant body on the sea floor or the ground. In addition, it is easy to install as it can be easily installed at low cost even in deep sea.

In addition, the floating sofa system of the present invention is an eco-friendly sofa system with almost no marine pollution or destruction, and can be easily moved and installed, and it is also easy to remove.

1 is an exploded view of a buoyancy body of a floating sofa system according to the present invention.
2 is a combined diagram of a mooring device connected to the floating sofa system of the present invention.
3 is a temporary example of a mooring device connected to the floating sofa system of the present invention.
4 is a front view of a floating sofa system using the mooring device of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with the accompanying drawings.

Prior to describing the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is an exploded view of a buoyancy body of a floating sofa system according to the present invention.

As shown in Fig. 1, the buoyant body 200 of the floating sofa system according to the present invention assembles a floating module 210, and the floating module 210 is fastened to one or more, preferably 2 to 5 It is desirable to fasten the dog.

The floating module 210 is fastened to each other by a fastening member 211 having a bracket formed thereon, and a hole is formed in the bracket of the fastening member 211, and a fixing shaft 300 is inserted into the hole to be the floating module 210 The buoyancy body is firmly assembled by fastening them together.

The fastening member 211 has fastening grooves 209 formed at both sides of the floating module 210 in the shape of a fastening member 211, and between the floating modules 210 when the floating module 210 is connected and coupled. The fastening member 211 is inserted and fitted into the fastening member, and the bracket of the fastening member is configured to protrude downward so that the fixing shaft 300 can be fitted. The fastening member has a bracket having a hole 212 formed thereon and a wing member 213 formed above a predetermined distance extending from the bracket, and a head member 214 is formed above a place where the wing member meets, so that the head member is When the floating module 210 is coupled, the bracket is supported from above. Grooves are formed on both sides of the floating module 210 as it is in the shape of the fastening member, so that the fastening member is inserted into fastening grooves formed on both sides of the floating module to a certain depth to firmly couple the floating module.

2 is a combined view of a mooring apparatus connected to the floating sofa system of the present invention, and FIG. 4 is a front view of a floating sofa system using the mooring apparatus of the present invention.

The mooring device 100 forms two first fixing portions 350 at a certain distance from the fixed shaft 300 so that they can be fixedly installed on the fixed shaft 300, and each of the two It fixes the support bracket (12).

The mooring device forms a weight-hanging part 43 so that the weight 31 can be hung at the end of the vertical steel wire 22, and supports one or more weights 31 on the weight-hanging part 43 It is supported by the frame 41, and preferably, three to four weightless weights are used as one layer, and if necessary, the number of layers is added to increase the weight.

The two-stranded vertical steel wire 22 fixed to the weight engaging portion 43 passes through the steel wire insertion pipe 44 formed at the center of the weight, and then passes through the insertion tube (not shown) formed in the counterweight 30. The side steel wires 21 are divided and connected to both sides past the first lifting roller 14 of the lifting bracket 13. The side steel wire 21 passes through the first support roller 16 of the support bracket 12, the second lift roller 15 of the lift bracket 13, and the second support roller 17 of the support bracket 12. Each is sequentially connected to the horizontal steel wire (20). Therefore, the two-stranded vertical steel wires are divided into two-stranded side steel wires and connected, and finally, the two-stranded vertical steel wires are connected to each other by a horizontal steel wire. Therefore, the mooring device coupled to the fixed shaft 300 of the buoyancy body holds the buoyancy body while lifting the weight up and down.

That is, the floating sofa system using the anchor type mooring device of the present invention constitutes a floating sofa system configured by connecting the buoyant body by acting as an anchor while the weight 31 is sinking under the sea or floating in the middle. .

3 is a temporary example of a mooring device connected to the floating sofa system of the present invention.

Fixing devices capable of fixing the buoyant body may be installed at both extreme ends of the buoyant body to support the buoyant body from both sides so as to withstand the waves.

When a wave hits the sea, the buoyant body is shaken as the wave hits the buoyant body 200, and the buoyant body is held by a mooring device, and when the buoyant body moves, the counterweight 30 balances the vertical steel wire, When the vertical steel wire 22 rises and falls according to the wave, the vertical steel wire maintains tension by the weight 31.

The fixed shaft 300 is additionally formed with a wave prevention plate 70 to crush the waves generated under the buoyancy body, and the wave prevention plates are formed by being spaced apart from the fixed shaft 300 by a predetermined distance. It is installed on the fixing bar 362 coupled to the second fixing part 360.

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The buoyant body assembled by assembling the floating module 210 is installed in the sea to form a sofa block, and the buoyant body forming the sofa block has one or more brackets formed for each buoyant body, and a hole in the bracket A floating sofa system is formed by inserting the fixed shaft 300 into 212 and connecting as many as the desired number of buoyancy bodies. The buoyant body forming the floating sofa system is combined with one or more mooring devices to prevent the buoyant body from shaking.

The buoyancy body is made by connecting and fixing the floating module 210 with a fastening member 211, and the shape of the lower portion of the buoyancy body is formed in a trapezoidal shape, a concave shape, or a mound shape, and formed in a compression type at the water surface, and Make it more flat.

In addition, it is constructed to minimize the transmission of vibration energy such as waves, swells, and waves by making it obliquely in the form of the outside.When looking at the buoyant body from the front, waves, swells, and waves are formed on both sides and front and back. It is desirable to configure it with an inclined surface that can cause energy loss while riding up.

In addition, the inner surface of the buoyancy body is composed of a gourd upside down shape, a concave box, a trapezoid, and a mound shape, so that the floating structure can minimize the movement by waves, and the floating structure is damaged by overturning or flooding. It is an advantage to secure stability by preventing it.

When the buoyant body is viewed from the side, the submerged area rises upwards by buoyancy and the force to be submerged by gravity, and the shape to be submerged by the atmospheric pressure and the weight of the object itself outside the water surface. It is composed of a form with

That is, as the two forces conflict with each other, floating on the water surface is achieved, which can be explained by taking the stability of the ship as an example.

For example, in the case of a ship, the center of gravity must be lower than the center of gravity (the center of the inclined state) so that the center can be adjusted and floated by the action of the restoration moment, and the mooring device 100 formed under the water structure is also described above. An example of the restoration moment can be applied.

A method of configuring the mooring device 100 so that the center of gravity of the mooring device 100 is located in the water and the center of gravity of the mooring device 100 is located at a position higher than the center of gravity so that the restoring moment can act so that the mooring device 100 can float while receiving the restoring moment in water is effective in preventing fall.

Alternatively, the shape of the buoyancy body may be a form in which a gourd is overturned in a water tank, and at this time, even if water is shaken in the water tank, it can be seen a form floating while maintaining its own compression force on the water surface.

The buoyancy body is composed of EPP (foamed polypropylene), or a lightweight propylene material is used.

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described in the present specification, and various modifications may be made by those skilled in the art within the scope of the technical spirit of the present invention. Yes, of course.

12; Support bracket 13: Elevating bracket
14, the first lifting roller 15: the second lifting roller
16: first support roller 17: second support roller
20: horizontal steel wire 21: side steel wire
22: vertical steel wire 30: counterweight 31: weight weight
41: support frame 42: balance weight portion 43: weight weight portion
44: steel wire insertion pipe 70: wave prevention plate 200: buoyancy body
210: floating module 211: fastening member
300: fixed shaft 315: wire 316: spring
350: first fixed portion 360: second fixed portion 362: fixed bar

Claims (5)

In the anchor type floating sofa system,
The anchor type floating sofa system forms an anchor type mooring device under the buoyant body 200 to which 2 to 5 floating modules 210 are assembled and fastened,
In the mooring device, two vertical steel wires 22 fixed to the weight locking portion 43 supporting the weight 31 pass through the insertion tube of the balance weight 30, and the lifting bracket formed on the balance weight 30 2 of the first elevating and past the roller (14) connected up, each divided into the side liner (21), each of the side liners, each support bracket first support roller elevating bracket 13 and then past the 16 of the 12 Buoyancy to catch the waves of waves and waves that pass through the lifting roller 15, pass through the second support roller 17 of the support bracket 12, and are connected by a horizontal steel wire 20, and are connected with a single strand of steel wire as a whole. Support the sieve,
The mooring device is fixed to the fixed shaft 300 of the buoyancy body 200, and the counterweight 30 balances the vertical steel wire when the wave strikes the buoyant body and shakes the buoyancy body, and is connected to the vertical steel wire 22 Floating sofa system using an anchor type mooring device, characterized in that the weight 31 supports the buoyant body while elevating and descending to extinguish the waves and waves of waves to keep the waves calm.
The method of claim 1,
Each of the fastening grooves 209 in the shape of fastening members 211 are drilled on both sides of the floating module 210 forming the buoyant body, and the floating module when assembling the buoyant body by connecting and combining the floating module 210 (210) The fastening member 211 is inserted into each of the fastening grooves to a predetermined depth,
The bracket of the fastening member is configured to protrude downward so that the fixed shaft 300 can be fitted,
The fastening member is composed of a bracket in which a hole 212 is formed, a wing member 213 formed on the bracket, and a head member 214 formed above the wing member,
Floating sofa system using an anchor type mooring device, characterized in that the fastening member is recessed into fastening grooves formed on both sides of the floating module to a certain depth to firmly couple the floating module


delete The method of claim 2,
In order to crush the waves of the waves generated under the buoyancy body on the fixed shaft 300
An anchor-type mooring device, characterized in that a wave-prevention plate (70) is additionally formed, and the wave-prevention plate is installed on a fixed bar coupled to two second fixing portions formed at a certain distance apart from the fixed shaft (300). Floating sofa system
The method of claim 2,
The buoyancy body is connected by a fixed shaft 300 to form a sofa block,
Floating using an anchor type mooring device, characterized in that wires are loosely connected to both ends of the buoyancy body at both ends of the sofa block to fix the sofa block and the ends of the wire are fixed to a fixing device or the ground to anchor and moor the sofa block. Sofa system

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