KR20190138955A - Floating Body - Google Patents

Abstract

According to the present invention, a floating body includes: a plurality of buoyant materials; a plurality of coupling rings coupled to surround surfaces of the plurality of buoyant materials and formed along an extension direction of the buoyant material; a fixing member connecting upper portions of the coupling rings arranged on the buoyant material in the same position in a linear direction; and a connecting member coupled to the buoyant materials adjacent to each other of the plurality of buoyant materials and coupled between the coupling rings arranged on a line corresponding to each other. The connecting member connecting a space between the buoyant materials is formed with a structure dispersing a load of a deck provided on the buoyant material, thereby reducing deformation or damage to the floating body.

Description

Floating Body

The present invention relates to a float, and more particularly to a float formed to distribute the load of the deck.

Floating floats are a means of floating in the water while providing a fixed area of space. Floating floats provide a place for leisure such as a manege, fishing, transport means for transporting people or objects to assist ordinary ships, and military training. It acts as a temporary bridge. In particular, the floats that are used a lot on the sea or in lakes are the Buzan Bridge and barges.

The Bujan Bridge is an offshore berthing facility that connects Taoism and barges installed on the pier.It is safe to anchor various vessels even when the sea level rises and falls, and the left and right movements by digging. It is used as a facility for safe movement to land or for safe boarding on a ship by using the Buzan Bridge on land. The Buzan Bridge is also widely used for marine workshops and water leisure facilities.

Barges are cargo carriers used in canals, rivers and ports, most of which are slow or do not have their own power.

Floating body is a concept that includes the Bujan Bridge and barge. When the floating body is used in connection with land, it becomes Buzan Bridge, and when it is used without connecting land, it becomes barge.

Conventional floats are normally loaded with cargo in the center of the upper deck surface, in which case the load is concentrated on the center of the deck, causing the central portion of the float to bend, resulting in structural deformation of the float or breakage of the float. there is a problem.

The present invention relates to a float, and an object thereof is to provide a float having a structure in which a load transmitted from a deck on which a constant load is loaded on an upper surface of the float is distributed.

An object of the present invention is to provide a float formed so as to distribute the load of the deck and the load disposed on the upper surface of the float to reduce deformation and breakage of the structure.

Floating body according to an embodiment of the present invention a plurality of buoyancy material; A coupling ring coupled to surround surfaces of the plurality of buoyancy materials and formed in a plurality in a direction in which the buoyancy materials extend; A fixing member connecting the upper portions of the coupling rings disposed at the same position on the buoyancy material in a linear direction; And a connection member coupled to adjacent buoyancy materials among the plurality of buoyancy materials and connected between coupling rings disposed on a line corresponding to each other, wherein the connection members are convex upwardly having a predetermined curvature. Both ends of the connection member may be coupled to the side of the coupling ring, and the upper end of the connection member may be coupled to the bottom surface of the fixing member.

And, the lower surface of the connecting member further includes a support for connecting two points symmetrical with respect to the center of the connection member, the support for fixing the position of the connection member so that the curvature of the connection member is kept constant It is characterized by.

The coupling ring includes a pair of upper frames coupled in a horizontal direction, and a lower frame coupled to a lower portion of the upper frame, and the upper frame is symmetrical with each other and the first upper frame and the second coupled to the ends thereof. It consists of an upper frame, the outer end of the first upper frame and the second upper frame consists of a first protruding surface protruding in the vertical direction, and a second protruding surface extending in the horizontal direction from the upper end of the first protruding surface Can be.

At this time, the lower frame is a pair of vertical frames spaced apart by the length of the first upper frame and the second upper frame, the inclined frame inclined inward by a predetermined angle from the vertical frame, both sides of the inclined frame The lower frame may be connected to.

And, the upper fastening portion is provided on both upper surfaces of the connecting member corresponding to the point symmetrical with respect to the center of the connecting member, the upper fastening portion is coupled in a vertical direction with the fixing member to fix the connecting member A support member may be provided.

And a connection frame provided at both sides of the coupling ring and protruding to form a hole, and further comprising a wire coupled to the connection frame disposed outside the coupling ring connected to each other by the connection member. It may be fixed to have a constant tension in contact with the lower surface of the coupling ring connected to each other by the connecting member.

Floating body according to another embodiment of the present invention a plurality of buoyancy material; A coupling ring coupled to surround surfaces of the plurality of buoyancy materials and formed in a plurality in a direction in which the buoyancy materials extend; A fixing member connecting the upper portions of the coupling rings disposed at the same position on the buoyancy material in a linear direction; And a connection member coupled to adjacent buoyancy materials among the plurality of buoyancy materials and connected between coupling rings arranged on a line corresponding to each other, wherein the connection member is inclined at a first angle with the fixing member and is coupled to the coupling ring. A first main support and a second main support coupled to each other to be symmetrical with respect to the center of the center, and are inclined at a second angle greater than the first angle to the fixing member and coupled to be symmetrical with respect to the center between the coupling rings The first sub support and the second sub support may be coupled to both ends of the first main support and the second main support may be configured to include a fixing frame disposed in parallel with the fixing member.

According to the embodiment of the present invention, since the connection member for connecting the buoyancy material provided in the floating body is formed in a structure that distributes the load of the deck has the advantage of reducing deformation or breakage.

According to an embodiment of the present invention, since the pipe connecting the buoyancy material provided in the floating body is formed in a structure that distributes the load of the deck, the length of the connecting member can be formed relatively long, thereby increasing the distance between the buoyancy material Since it can be reduced the number of buoyancy materials composed of the floating body has the advantage of reducing the manufacturing cost.

1 is a perspective view showing a floating body according to a first embodiment of the present invention
Figure 2 is a perspective view showing a coupling structure of the coupling ring according to the first embodiment of the present invention
Figure 3 is a perspective view showing a coupling structure between the configuration of the floating body according to the first embodiment of the present invention
Figure 4 is a perspective view showing a connection structure between the buoyancy material in the floating body according to the first embodiment of the present invention
5 is a sectional view of the floating body according to the first embodiment of the present invention as viewed from the front;
6 is a front view showing a connection structure between the buoyancy material in the floating body according to the second embodiment of the present invention
7 is a perspective view showing a connection structure between the buoyancy material in the floating body according to the second embodiment of the present invention

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited thereto. In describing the present invention, detailed descriptions may be omitted to clarify the gist of the present invention by known functions or configurations.

1 is a perspective view showing a state in which a plurality of floating body according to the first embodiment of the present invention is coupled.

Referring to FIG. 1, the floating body 100 according to the present invention includes a plurality of buoyancy materials 70, a coupling ring 20 coupled in an extended length direction of the plurality of buoyancy materials 70, and a plurality of buoyancy materials ( 70 is connected to the connecting member 50, the fixing member 30 and the connecting member 50 provided on the coupling ring 20 to secure the coupling ring 20 and the connecting member 50. It may be configured to include a support 60 is disposed on the inner surface of the connecting member 50 to prevent the bending.

The buoyancy material 70 may be formed in the shape of a polygonal column provided with an inclined surface is reduced in diameter downward. However, the present invention is not limited thereto and may have a circular shape such as a cylinder or an elliptic cylinder, and may be modified in various shapes. The buoyancy material 70 may be formed of a PE, PP, PVC material, the inside of the buoyancy material 70 may be formed of an empty space or filled with a material of a suitable material to strengthen the buoyancy. In the drawings, a case in which two buoyancy materials 70 are described will be described as an example. However, at least two or more buoyancy materials 70 may be disposed in the floating body 100 of the present invention.

The coupling ring 20 may be coupled in a form surrounding the outer surface of the buoyancy material 70, and a plurality of coupling rings 20 may be spaced apart by a predetermined distance along an extended length direction of the buoyancy material 70.

The coupling member 50 may be coupled to the coupling ring 20 provided in the buoyancy member 70 positioned on the same line adjacent to each other among the buoyancy members 70, and the coupling member 50 may be coupled to the coupling ring 20. Is connected between the buoyancy material 70 may be provided to fix at regular intervals. The connection member 50 may be formed in a curved shape bent to have a predetermined curvature, it may be arranged to have a convex shape in the upward direction.

The lower surface of the connection member 50 may be provided with a support 60 for connecting two points symmetrical with respect to the center of the connection member 50, the support 60 is the It may be provided to support the curvature to be kept constant.

In addition, a fixing member 30 coupled to an upper surface of the coupling ring 20 and a central portion of the coupling member 50 may be provided at an upper portion of the coupling member 50 and the coupling ring 20. The fixing member 30 may be formed as a straight frame extending by a distance between the plurality of buoyancy material 70.

Although not shown, a deck that is divided or integrally formed on the upper surface of the fixing member 30 may be formed, and the deck may be provided with a buoyancy structure supported by buoyancy. For example, it may include a floating house, a mooring house, etc., may include a structure that can be utilized in the water.

2 is a perspective view showing a coupling structure of the coupling ring according to the first embodiment of the present invention.

Referring to FIG. 2, the coupling ring 20 according to the first embodiment may include a pair of upper frames 23 coupled in a horizontal direction and a lower frame 26 coupled to a lower portion of the upper frame 23. have. The upper frame 23 may include the first upper frame 21 and the second upper frame 22 having the same shape, and the first upper frame 21 and the second upper frame 22 may be symmetrical with each other. The ends can be joined.

 The first upper frame 21 may include a horizontal frame 21a having a bar shape, and a first protruding surface 21b protruding in the vertical direction may be formed at one end of the horizontal frame 21a. A second protruding surface 21c extending in the horizontal direction may be provided at an upper end of the first protruding surface 21b.

A third protruding surface 21d protruding in the vertical direction corresponding to the opposite side of the second protruding surface 21b may be formed at the other end of the horizontal frame 21a.

The third protruding surface 21d formed on the first upper frame 21 may have a through groove, and the third protruding surface 21d of the first upper frame 21 may have the first upper frame ( 21 may be coupled by the first screw 27 in contact with each other with the third protruding surface 21d of the second upper frame 21.

The upper frame 23 has been described as a combination of the first upper frame 21 and the second upper frame 22, but may be formed integrally. In this case, one vertical frame may be provided, and first and second protruding surfaces 21b and 21c may be provided at both ends of the vertical frame, and the third and second protruding surfaces 21d may be disposed.

The lower frame 26 may be integrally formed, and the vertical frame 26a spaced apart by the total length of the first upper frame 21 and the second upper frame 22 and the vertical frame 26a. An inclined frame 26b inclined inward by a predetermined angle and a lower frame 26c connected to both sides of the inclined frame 26b. That is, the lower frame 26 may be formed in a shape in which the width is narrowed downward by the inclined frame 26b. The lower frame 26 is a member surrounding the outer surface of the buoyancy material 70, as shown in Figure 1, the shape of the lower frame 26 may be determined according to the shape of the buoyancy material (70).

One or more holes may be formed in an upper portion of the vertical frame 26a, and the holes may be located at the hole positions of the second protruding surface 21b provided in the first upper frame 21 and the second upper frame 22. The upper frame 23 and the lower frame 26 may be coupled to each other by inserting a second screw 24 between the holes.

In addition, a connection frame 25 having one or more holes may be coupled to an outer surface of the vertical frame 26a corresponding to both sides of the lower frame 26, and the connection frame 25 may be described later. It may be an area to which the ends of the member 50 are coupled. The connecting frame 25 may be coupled to the lower frame 26 by welding or the like.

The buoyancy material 70 formed in the floating body of the present invention was manufactured in a form in which the width thereof becomes narrower as the cross section goes downward, but is not limited thereto and may be manufactured in various shapes such as a circle or an oval according to the size of the floating body. .

3 is a perspective view showing a connection structure between the buoyancy material in the floating body according to the first embodiment of the present invention. Referring to Figure 3, the floating body 100 of the present invention may be provided with at least two buoyancy material 20 to form a buoyancy, the band-shaped coupling ring 20 is formed to surround the external shape of the buoyancy material is As described above, a plurality is provided while being spaced a predetermined distance from the outer surface of the buoyancy material. When the neighboring buoyancy material is divided into the first buoyancy material 20 and the second buoyancy material 21 and described, the first buoyancy material 20 is provided with a plurality of first coupling rings 20 and the second buoyancy material 21 is provided. A plurality of second coupling rings 21 may be provided. The connection member 50 may be coupled between the first coupling ring 20 and the second coupling ring 21 provided at a corresponding position of the first coupling ring 20.

In the present invention, the connecting member 50 may be provided in the form of an arcuate pipe having a predetermined curvature. One end of the connection member 50 may be coupled to the side of the first coupling ring 20 and the other end may be coupled to and fixed to the side of the second coupling ring 21. The connecting member 50 may be coupled to have a convex shape upward, so that the floating body of the present invention distributes the load transmitted to the connecting member 50 when an object having a certain weight is loaded on the buoyant material. There is an effect that can be supported while.

When the connecting member 50 is formed in a straight line, the longer the length of the connecting member 50 is, the more the load is concentrated in the center of the connecting member 50, so that the deformation or breakage of the connecting member 50 is greater. , Since the connection member 50 provided in the present invention is manufactured in a convex shape in which the height of the center is the highest and the height decreases toward the edge, the load transmitted from the connection member 50 can be evenly distributed on the connection member 50. In addition, a support 60 having a bar shape may be provided on a bottom surface of the connection member 50, which is connected to a point symmetrical with respect to the center of the connection member 50. The support 60 may be disposed to prevent the curvature of the connection member 50 from being deformed by the load transmitted to the connection member 50.

Figure 4 is a perspective view showing the coupling structure between the configuration of the floating body according to the first embodiment of the present invention.

Referring to FIG. 4, a connection frame 25 having at least one groove is provided at a side of the coupling ring 20 illustrated in FIG. 2, and an end of the connection member 50 is formed in the groove of the connection frame 25. Holes provided in the matching may be screwed through the third screw (53).

In addition, an upper fastening portion 51 having a groove may be provided at an upper surface of a point spaced apart from the end of the connecting member 50 by a predetermined distance, and a lower fastening portion 55 having a groove formed at a lower surface thereof. The lower fastening portion 51 is matched with a hole 61 provided at the end of the support 60, the position of the support 60 can be fixed by inserting a fourth screw 54 in the hole 61. have.

The upper portion of the coupling ring 20 and the connecting member 50 is provided with a fixing member 30 for fixing the position of the coupling ring 20 and the connecting member 50, the fixing member 30 is a bar shape The pipe may be formed to extend from the floating body to the coupling ring disposed at both ends. As shown in FIG. 2, the fixing member 30 may be screwed into a plurality of grooves provided on the second protruding surface 21c disposed on the coupling ring 20.

The upper surface of the fixing member 30 may be provided with a plurality of connecting rings 31 provided to be coupled to a member such as a deck covering the fixing member to form a support surface.

Although not shown, the upper fastening portion 51 provided on the upper surface of the connecting member 50 may be provided with an additional support member for engaging with the lower surface of the fixing member 50, which is the connection member 50. The position is more firmly fixed, and in particular, the position of the connection member 50 can be prevented from changing downward by the transmitted load.

5 is a cross-sectional view of the floating body according to the first embodiment of the present invention.

Referring to FIG. 5, the floating body according to the first embodiment may further include a wire 40 connecting adjacent coupling rings to each other. The wire 40 may be connected to contact the bottom surfaces of the first and second coupling rings 20 and 21 connected to each other by the connecting member 50. Connection frames 25 and 28 may be provided at both sides of the first coupling ring 20 and the second coupling ring 21, and the wire 40 is connected to the left side of the first coupling ring 20. It is connected to the connection frame 28 provided on the right side of the 25 and the second coupling ring 21, the constant tension in contact with the lower surface of the first coupling ring 20 and the second coupling ring 21 It can be fixed to have.

X and Y, which are the upper surfaces of the connection frames 25 and 28 connected to the inside of the buoyancy material 70 and 71 in the process of dispersing the weight applied to the central portion through the connection member 50 as in the first embodiment of the present invention. When an excessive load is applied to a point, each of the buoyancy materials 70 and 71 may be inclined inward.

Accordingly, the first embodiment includes a wire 40 connecting the outer portions of the buoyancy materials 70 and 71 at the lower surface thereof, whereby the positions of the buoyancy materials 70 and 71 can be more firmly fixed. The wire 40 is fastened between the coupling rings 20 and 21 formed in a plurality of buoyancy materials (71, 71), the plurality of coupling rings (20, 21) is provided in the longitudinal direction of the buoyancy material, the wire 40 may also be formed in plural as the number of coupling rings (20, 21).

As described above, the float according to the first embodiment of the present invention includes a plurality of buoyancy materials 70, a coupling ring 20 surrounding the outer surfaces of the plurality of buoyancy materials 70, and a plurality of buoyancy materials 70. The connecting member 50 for connecting the fixing member 30 and the inner surface of the connecting member 50 provided on the coupling ring 20 to fix the coupling ring 20 and the connecting member 50. Support (60) disposed in the can be tightly coupled and fixed by screwing each other. In particular, since the connecting member 50 connecting the plurality of buoyancy materials 70 is formed to have a predetermined curvature in the form of convex upward, the load transmitted on the connecting member 50 disposed between the buoyancy materials is the central region and the peripheral region It can be distributed evenly.

That is, since the floating body of the present invention has an effect of evenly distributing the load by the shape of the connecting member 50, it is possible to form a relatively long interval between buoyancy materials. For example, if four buoyant materials were required to withstand the load when the connecting member was a straight line when the same weight was loaded on the floating body, the structure of the present invention has the effect that the three buoyant materials can withstand the same load. Can have Therefore, the floating body of the present invention is a structure that can load the same weight while reducing the manufacturing cost than conventional. In addition, as the weight to be loaded is evenly distributed on the connecting member, it is possible to achieve the effect of significantly reducing breakage and deformation of the support surface provided in the float.

6 is a front view showing a connection structure between the buoyancy material in the float according to the second embodiment of the present invention, Figure 7 is a perspective view showing a connection structure between the buoyancy material in the float according to the second embodiment.

6 and 7, the floating body according to the second embodiment has a difference only in the connection structure between the floating body and the buoyant material of the first embodiment, and the rest of the configuration is the same, so a detailed omission of the same configuration will be described.

Looking at the connection structure of the floating body 200 according to the second embodiment, it is assumed that the buoyancy material is composed of two. Both sides of the floating body 20 may include a first buoyancy material 70 disposed on the left side and a second buoyancy material 71 disposed on the right side, the bar on the first buoyancy material 70 and the second buoyancy material 71 The fixing member 30 which is a frame of a shape may be disposed.

A plurality of first coupling rings 20 may be coupled to the first buoyancy material 70 along the extending direction of the first buoyancy material 70 as shown in the first embodiment of FIG. 1, and the second buoyancy material ( Likewise, the second coupling ring 21 may be coupled to 71.

The first connection frame 25 may be provided on the side of the first coupling ring 20, and the second connection frame 28 may be provided on the side of the second coupling ring 21. A first main support 83 having a linear shape is coupled to the first connection frame 25, and the first main support 83 is formed between the first coupling ring 20 and the second coupling ring 21. It may be coupled to extend to the lower surface of the fixing member 30 corresponding to the intermediate point. In addition, a linear second main support 84 is coupled to the second connection frame 28, and the second main support 84 is the first coupling ring 20 and the second coupling ring 21. Extending to the bottom surface of the fixing member 30 corresponding to the intermediate point (a) therebetween can be combined.

A linear fixed frame 85 may be coupled to the lower surfaces of the first main support 83 and the second main support 84, and the fixed frame 85 may include the first coupling ring 20 and the first coupling ring 20. It may be formed at a position symmetrical with respect to the intermediate point between the two coupling ring (21). That is, both ends of the fixing frame 85 may be coupled to the first main support 83 and the second main support 84, and may be disposed in parallel with the fixing member 30.

In addition, a linear first sub supporter 81 may be coupled to the first connection frame 25, and an end portion of the first sub supporter 81 may extend to a bottom surface of the fixing member 30 to be coupled to the first connection frame 25. It may be preferably coupled to the intermediate point (b) between the point where the first coupling ring 20 and the first main frame 83 is coupled.

Similarly, the second connection frame 28 may have a linear second sub support 82 extended to a position c that is symmetrical with the first sub support 81.

The first main support 83 and the second main support 84 may be coupled with the first coupling ring 20 to be inclined at a first angle with the fixing member 30, and the first sub supporter ( 81 and the second sub support 82 may be coupled to the second coupling ring 21 to be inclined at a second angle with the fixing member 30. Here, the second angle may be set larger than the first angle.

As described above, the floating body according to the second embodiment of the present invention includes first and second buoyancy materials 70 and 71 and first and second surrounding outer surfaces of the first and second buoyancy materials 70 and 71. 2 coupling rings 20 and 21, a fixing member 30 provided on the first and second coupling rings 20 and 21, and the first and second coupling rings 20 and 21 and the fixing member. It may include a plurality of connecting members for connecting so as to support between the 30, each configuration can be tightly coupled by screwing.

The connecting member connecting the first and second buoyancy materials (70, 71) is the first and second main frame (83, 84) extending toward the center of the first and second coupling rings (20, 21), Disposed above the first and second main frames 83 and 84 and between the first and second coupling rings 20 and 21 and a point at which the first and second main frames 83 and 84 are coupled; It may include the first and second sub-supports (81, 82) disposed at the intermediate point. The above structure may be applied to all coupling rings extending in the longitudinal direction of the first and second buoyancy materials 70 and 71, and may be formed in the same manner even when three or more buoyancy materials are formed.

The first and second main frames 83 and 84 and the first and second sub-supports 81 and 82 disposed between the first and second buoyancy materials 70 and 71 have a contact point of the fixing member 30. Since a plurality of formed at positions symmetrical with each other at the lower surface, the load transmitted from the above may be evenly distributed in the central region and the surrounding region.

Although not shown, the float according to the second embodiment of the present invention may further include a wire connecting adjacent coupling rings to each other, as disclosed in FIG. 5. The wire may be connected to contact the bottom surfaces of the first and second coupling rings 20 and 21 connected to each other by a plurality of connection members.

As shown in FIG. 5, the second embodiment also shows that each of the buoyant materials 70, when the excessive load is applied to the X and Y points, which are the upper surfaces of the connection frames 25 and 28 connected to the inside of the buoyancy materials 70 and 71, respectively. Since the problem that the 71 is bent inward may occur, the wires connecting the outer portions of the buoyancy members 70 and 71 to each other on the lower surface thereof can be more firmly fixed to the positions of the buoyancy members 70 and 71. have.

Therefore, the second embodiment of the present invention can load the same weight while reducing the manufacturing cost as compared with the first embodiment, and breakage of the support surface provided in the float as the weight is evenly distributed on the connecting member. And effects that can significantly reduce deformation.

The present invention has been described above with reference to preferred embodiments thereof, which are merely examples and are not intended to limit the present invention, and those skilled in the art to which the present invention pertains do not depart from the essential characteristics of the present invention. It will be appreciated that various modifications and applications are not possible that are not illustrated above. For example, each component specifically shown in the embodiment of the present invention can be modified. And differences relating to such modifications and applications will have to be construed as being included in the scope of the invention defined in the appended claims.

100: floating body
20, 21: coupling ring
21: first upper frame
22: second upper frame
21a: horizontal frame
21b: first protrusion surface
21c: second protrusion
21d: third protrusion
23: upper frame
26: lower frame
26a: vertical frame
26b: inclined frame
26c: bottom frame
27: first screw
30: fixing member
40: wire
50: connecting member
60: support
70, 71: float

Claims (7)

A plurality of buoyancy materials;
A coupling ring coupled to surround surfaces of the plurality of buoyancy materials and formed in plurality in a direction in which the buoyancy materials extend;
A fixing member connecting the upper portions of the coupling rings disposed at the same position on the buoyancy material in a linear direction; And
A connection member coupled to buoyancy materials adjacent to each other among the plurality of buoyancy materials and connected between coupling rings disposed on a line corresponding to each other;
The connecting member is formed to be convex in an upward direction having a predetermined curvature, both ends of the connecting member is coupled to the side of the coupling ring and the upper end of the connecting member is coupled to the lower surface of the fixing member. The method of claim 1,
The lower surface of the connection member further includes a support for connecting two points symmetrical with respect to the center of the connection member, the support is a floating body for fixing the position of the connection member so that the curvature of the connection member is kept constant . The method of claim 1,
The coupling ring includes a pair of upper frames coupled in a horizontal direction, and a lower frame coupled to a lower portion of the upper frame.
The upper frame is composed of a first upper frame and a second upper frame symmetrical with each other and the ends are coupled,
The outer body of the first upper frame and the second upper frame floating body consisting of a first protruding surface protruding in the vertical direction, and a second protruding surface extending in the horizontal direction from the upper end of the first protruding surface. The method of claim 3, wherein
The lower frame is connected to a pair of vertical frames spaced apart by the length of the first upper frame and the second upper frame, the inclined frame inclined inward by a predetermined angle in the vertical frame, both sides of the inclined frame Floating body consisting of a lower frame. The method of claim 1,
Upper fastening portions are provided on upper surfaces of both sides of the connecting member corresponding to points symmetric with respect to the center of the connecting member, and the supporting member is vertically coupled to the fixing member to fix the connecting member to the upper fastening portion. Float is prepared. The method of claim 1,
Further comprising a connecting frame provided on both sides of the coupling ring and protruding to form a hole, further comprising a wire coupled to the connecting frame disposed on the outside of the coupling ring connected to each other by the connecting member,
The wire is fixed to have a constant tension in contact with the lower surface of the coupling ring connected to each other by the connecting member. A plurality of buoyancy materials;
A coupling ring coupled to surround surfaces of the plurality of buoyancy materials and formed in plurality in a direction in which the buoyancy materials extend;
A fixing member connecting the upper portions of the coupling rings disposed at the same position on the buoyancy material in a linear direction; And
A connection member coupled to buoyancy materials adjacent to each other of the plurality of buoyancy materials and connected between coupling rings disposed on a line corresponding to each other;
The connecting member is inclined at a first angle with the fixing member, and the first main support and the second main support are coupled to be symmetrical with respect to the center between the coupling rings, the second larger than the fixing member and the first angle. Both ends are coupled to the first sub supporter and the second sub supporter, the first main supporter and the second main supporter being inclined at an angle and symmetrically coupled to each other with respect to the center between the coupling rings so that the fixing member is parallel to the fixing member. Floating body including a fixed frame disposed.

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