KR102273222B1 - A Buoy Assembly - Google Patents

Abstract

The present invention relates to a buoyancy assembly, the structure of which is a floating body part formed in a cylindrical shape and having shafts formed at both ends, and a bar shape formed in a bar shape and rotatably connected to a shaft on one side of the floating body part, the floating body It may be configured to include a horizontal link portion for rotatably connecting the parts in parallel, and a vertical link portion formed in a bar shape and rotatably connected vertically with respect to the horizontal link portion. The upper body part is composed of a steel K-seung on the outside, and polyurethane foam can be built-in therein.

Description

{A Buoy Assembly}

The present invention relates to a buoyancy assembly, and more particularly, to a buoyancy assembly capable of stably maintaining a balance even with an external force at sea by forming a plurality of buoyancy bodies at regular intervals.

Floating structures such as floating piers, offshore cage farms, floating offshore leisure facilities, floating offshore fishing grounds, offshore work boats, marine pants, floating sofas, floating bridges, and floating decks are floating by installing buoyancy structures under the floating structures. , these buoys are moored by separate fixing means.

The mooring means for mooring the float has various structures depending on the characteristics of the floating body and the manufacturing method.

In particular, Styrofoam floats, buoyancy pipes, and wood were used to maintain buoyancy in the existing marine floats. In the case of Styrofoam floats, the durability is weak, which is the main cause of serious pollution of the marine environment. The establishment of cage farms using

Due to the above problems, recently, polyethylene (PE), preferably medium-density polyethylene (MDPE) or high-density polyethylene (PE), preferably medium-density polyethylene (MDPE) or high-density polyethylene (PE), which can be easily and firmly fused and assembled by the butt fusion method, which has excellent corrosion resistance, wave resistance and eco-friendliness It is being replaced with an offshore floating structure composed of a buoyancy pipe and bracket using polyethylene (HDPE).

However, the prior art has the following problems.

Since the buoyancy body is made of the same material as a whole, it is difficult to realize durability and buoyancy at the same time. There were inconvenient problems in production or change.

Registered Patent No. 10-1536278

In order to solve the above-described problems, an object of the present invention is to provide a buoyancy assembly with high durability and easy assembly of each buoyancy body by a combination of several buoyancy bodies.

In order to achieve the above object, the buoyancy assembly of the present invention is formed in a cylindrical shape and has an upper body part having shafts formed at both ends, and a bar shape is rotatably connected to the shaft of one side of the floating body part. It may be configured to include a horizontal link portion for rotatably connecting the floating body portions in parallel, and a vertical link portion formed in a bar shape and rotatably connected vertically with respect to the horizontal link portion.

The horizontal link unit includes a first bearing rotatable with shafts connected at both ends, one end connected to the shaft of the floating body portion and a first connecting screw unit rotatably connected at one end to the first bearing at one end; may be configured to include a second connection screw part connected to the shaft of the other parent body part and the other end being rotatably connected to the other end of the first bearing.

And, the buoyancy assembly of the present invention is formed in a bar shape, and a horizontal link body having a first through hole and a second through hole is further provided, and the axis of the floating body part is rotatably connected around the first through hole, and the first through hole is rotatably connected to the first through hole. It is characterized in that the shaft of the other floating body part is rotatably connected around the two through-holes.

The first connecting screw portion, one end of which is rotatably fixed to the first bearing, and the other end of the first connecting screw fixed to the shaft groove of the shaft, and the first connecting screw between the first connecting screw and the shaft It may be configured to include a first nut engaged and coupled, and a first safety pin fixed through the shaft and the first connection screw.

The second connection screw part includes a second connection screw having one end rotatably fixed to the first bearing and the other end fixed to the shaft groove of the shaft, and the second connection screw between the second connection screw and the shaft. It may be configured to include a second nut engaged and coupled, and a second safety pin fixed through the shaft and the second connection screw.

The vertical link unit includes a vertical link body formed in a bar shape, and a first connection through-hole that is formed through a lower end of the vertical link body and is rotatably coupled to any one of the first connection screw part or the second connection screw part. And, it is perpendicular to the upper end of the vertical link body and is formed horizontally, and may be configured to include a plate-shaped connecting plate that can be fastened to another structure at the upper end.

A second connection through hole is provided at the upper end of the vertical link body, and when the first through hole of one end of the horizontal link body is connected to the first connection through hole, between the second connection through hole and the second through hole of the horizontal link body It is characterized in that the inclined link portion for connecting the further provided.

The buoyancy assembly according to the present invention has the following effects.

After separating the cylindrical buoyancy body, it is rotatably assembled with a connection part between each to prevent foreign substances from adhering to the surface of the buoyancy body to increase durability, and the buoyancy body is made of a material with excellent buoyancy, and the material of the upper plate has high strength. It is composed of high material and has the advantage of simple operation and high durability as a whole.

1 is a perspective view showing a structure in which a buoyancy assembly according to the present invention is installed.
Figure 2 is a front view showing the coupling structure of the buoyancy assembly according to the present invention.
Figure 3 is a detailed view showing the coupling structure between the floating body portion of the buoyancy assembly according to the present invention.
Figure 4 is an exploded perspective view showing the coupling structure between the floating body portion of the buoyancy assembly according to the present invention.
Figure 5 is a perspective view showing an embodiment of the buoyancy assembly according to the present invention.

Hereinafter, a preferred embodiment of the buoyancy assembly according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a buoyancy assembly, the configuration of which is, as shown in FIG. 1 , a floating body part 10 formed in a cylindrical shape and having shafts formed at both ends, and a bar shape, one side of the floating body part A horizontal link portion 20 that is rotatably connected to a shaft and rotatably connects the floating body portions in parallel, and a vertical link formed in a bar shape and rotatably connected vertically with respect to the horizontal link portion 20 . It may be configured to include a part (30).

First, in the present invention, the floating body portion 10 is provided in the buoyancy assembly. The floating body portion 10 may be formed in various shapes to provide buoyancy to the assembly. For example, the upper body portion 10 may be formed of a steel casing on the outside, and polyurethane foam on the inside.

In the present invention, the upper body portion 10 is formed in a cylindrical shape, and shafts are formed at both ends. The floating body part 10 is configured to be rotatable about the axis. One of the axes 12 is referred to as a first axis, and the other axis is divided into a second axis. A shaft groove 12a is formed in the shaft 12, and a screw thread is formed in the shaft groove 12a.

In the shaft groove 12a, a first connection screw 26a of a first connection screw part 26 and a second connection screw 27a of a second connection screw part 27 to be described below are inserted into the shaft groove 12a. It is fastened by means of a screw thread.

In addition, a horizontal link portion 20 is provided between the floating body portions 10 . The horizontal link unit 20 serves to connect in series and parallel between the sub-body units 10 . The horizontal link unit 20 may be configured in various ways to horizontally connect between the sub-body parts 10, and in the present invention, it may be configured as follows.

The horizontal link unit 20 includes a first bearing 24 rotatable with shafts connected at both ends, one end connected to the shaft 12 of the parent body 10, and the other end connected to the first bearing ( 24) a first connecting screw portion 26 rotatably connected to one end, one end connected to the shaft 12 of the other sub-body portion 10 and the other end rotated to the other end of the first bearing 24 It may be configured to include a second connection screw portion 27 that is possibly connected.

First, a first bearing 24 is provided on the horizontal link unit 20 . The first bearing 24 serves to connect the shafts at both ends so that they can rotate relatively without interfering with each other.

A first connecting screw portion 26 is provided at one end of the first bearing 24 , and a second connecting screw portion 27 is provided at the other end of the first bearing 24 .

The first connecting screw portion 26 serves to connect one end to the shaft 12 of the parent body portion 10 and rotatably connect the other end to the first bearing 24 at one end. The first connecting screw portion 26 serves to rotatably connect the shaft 12 of the parent body portion 10 and the first bearing 24 to each other.

The first connection screw part 26 may be configured in various ways for the above-mentioned functions, and in the present invention, it may be configured as follows.

The first connecting screw portion 26, one end of which is rotatably fixed to the first bearing 24, and the other end of the first connecting screw 26a fixed to the shaft groove 12a of the shaft 12; A first nut 26b engaged with the first connecting screw 26a between the first connecting screw 26a and the shaft 12, the shaft 12 and the first connecting screw 26a It may be configured to include a first safety pin (26c) fixed through the.

The first connection screw 26 is provided with a first connection screw 26a. One end of the first connection screw 26a is rotatably fixed to the first bearing 24 , and the other end is fixed to the shaft groove 12a of the shaft 12 .

A first nut 26b is provided between the first connecting screw 26a and the shaft 12 . The first nut 26b is engaged with the first connecting screw 26a, and prevents the horizontal link body 22 or the vertical link body 32, which will be described below, from coming into direct contact with the shaft 12. and serves to prevent the first connection screw 26a from being separated from the shaft 12 .

In addition, a first safety pin 26c is provided on the shaft 12 . The first safety pin 26c penetrates the shaft 12 and the first connection screw 26a and serves to prevent the first connection screw 26a from being separated from the shaft 12 or from being rotated. .

In addition, a second connection screw portion 27 is provided on the first bearing 24 . The second connection screw portion 27 serves to connect one end to the shaft 12 of the parent body portion 10 and rotatably connect the other end to the first bearing 24 to the other end. The second connection screw portion 27 serves to rotatably connect the shaft 12 of the parent body portion 10 and the first bearing 24 to each other.

The second connection screw portion 27 may be configured in various ways for the above-described functions, and in the present invention may be configured as follows.

The second connecting screw portion 27, one end is rotatably fixed to the first bearing 24, the other end is fixed to the shaft groove (12a) of the shaft (12) a second connecting screw (27a), a second nut 27b engaged with the second connecting screw 27a between the second connecting screw 27a and the shaft 12, the shaft 12 and the second connecting screw 27a It may be configured to include a second safety pin (27c) fixed through the.

A second connection screw 27a is provided on the second connection screw portion 27 . One end of the second connection screw 27a is rotatably fixed to the first bearing 24 , and the other end is fixed to the shaft groove 12a of the shaft 12 .

A second nut 27b is provided between the second connection screw 27a and the shaft 12 . The second nut 27b is engaged with the second connecting screw 27a and prevents the horizontal link body 22 or the vertical link body 32, which will be described below, from directly contacting the shaft 12. and serves to prevent the second connection screw 27a from being separated from the shaft 12 .

A second safety pin 27c is provided on the shaft 12 . The second safety pin 27c penetrates the shaft 12 and the second connection screw 27a and serves to prevent the second connection screw 27a from being separated from the shaft 12 or from being rotated. .

In addition, a horizontal link body 22 may be further provided in the horizontal link unit 20 . The horizontal link body 22 is formed in a bar shape, and a first through hole 22a and a second through hole (not shown) are formed at both ends. It is rotatably connected to the shaft 12 of the parent body 10 through the first through hole 22a, and the shaft 12 of the other parent body 10 is rotatably connected through the second through hole. do.

That is, the horizontal link body 22 serves to connect the sub-body parts 10 in series in parallel.

And, the buoyancy assembly of the present invention is provided with a vertical link portion (30). As shown in FIGS. 3 and 4, the vertical link part 30 is positioned vertically with respect to the axis 12 of the floating body part 10 so that the structure S can be installed thereon. It serves to support between the floating body portion 10 and the structure (S).

The vertical link unit 30 may be configured to be vertically rotatably connected to the horizontal link unit 20 by being formed in a bar shape for the above-described function. More specifically, in the present invention, as shown in FIGS. 3 and 4 , the vertical link unit 30 includes a vertical link body 32 formed in a bar shape, and a lower end of the vertical link body 32 . A first connection through hole 34 rotatably coupled to any one of the first connection screw part 26 or the second connection screw part 27, and at the upper end of the vertical link body 32 It is formed perpendicularly and horizontally, and may be configured to include a connecting plate 36 on a plate that can be fastened to another structure at the top.

The vertical link unit 30 is provided with a vertical link body 32 . The vertical link body 32 is formed in a bar shape. A first connection through hole 34 is provided at the lower end of the vertical link body 32 . The first connection through hole 34 is connected to the shaft groove 12a of the shaft 12 of the parent body 10, and the connection screws 26a and 27a of the first connection screw part 26 or the second connection screw part 27. Thus, the vertical link body 32 is rotatably fixed to the shaft 12 of the auxiliary body part 10 .

A connecting plate 36 is provided at the upper end of the vertical link body 32 . The connecting plate 36 is perpendicular to the upper end of the vertical link body 32 and is formed horizontally, so that it can be fastened to another structure (S) at the upper end.

A second connection through-hole 38 is provided at the upper end of the vertical link body 32 . In addition, the inclined link portion 40 may be further provided. The inclined link portion 40 is formed in a bar shape, and a third through hole 42 and a fourth through hole 44 are formed at both ends, respectively.

When connected to the first through hole (22a) of one end of the horizontal link body (22) and the first connection through hole (34) of the vertical link body (32), the inclined link portion (40) is the second connecting through hole ( 38) and the second through hole of the horizontal link body 22 is connected. That is, the third through hole 42 of the inclined link part 40 is rotatably connected to the second connection through hole 38 by a rotation shaft, and the fourth through hole 44 of the inclined link part 40 is It is rotatably connected to the second through hole of the horizontal link body 22 by a rotation shaft.

As such, those skilled in the art to which the present invention pertains will understand that the above-described technical configuration of the present invention may be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the above detailed description, and the meaning and scope of the claims and their All changes or modifications derived from the concept of equivalents should be construed as being included in the scope of the present invention.

10: rich body 12: shaft
12a: shaft groove 20: horizontal link part
22: horizontal link body 22a: first through hole
24: first bearing 26: first connection screw part
26a: first connection screw 26b: first nut
26c: first safety pin 27: second connection screw part
27a: second connecting screw 27b: second nut
27c: second safety pin 30: vertical link part
32: vertical link body 34: first connection through hole
36: connection plate 38: second connection through hole
40: inclined link portion 42: third through hole
44: fourth hole

Claims (5)

The upper body portion is formed in a cylindrical shape and shafts are formed at both ends;
a horizontal link part formed in a bar shape and rotatably connected to a shaft on one side of the rich body part to rotatably connect the rich body parts in parallel; and
and a vertical link portion formed in a bar shape and rotatably connected to the vertical link portion with respect to the horizontal link portion;
The horizontal link unit,
a first bearing with shafts connected at both ends and rotatable with each other;
a first connection screw part having one end connected to the shaft of the parent body part and the other end being rotatably connected to one end of the first bearing; and
a second connection screw part having one end connected to the shaft of the other sub-assembly and the other end being rotatably connected to the other end of the first bearing;
A horizontal link body formed in a bar shape and having a first through hole and a second through hole is further provided, the shaft of the sub assembly is rotatably connected around the first through hole, and another member is provided with the second through hole as the center. an axis of the assembly is rotatably connected,
The vertical link unit,
a vertical link body formed in a bar shape;
a first connection through-hole which is formed through a lower end of the vertical link body and is rotatably coupled to any one of the first connection screw part or the second connection screw part; and
It includes; a connecting plate on a plate that is perpendicular to the upper end of the vertical link body and is formed horizontally, and can be fastened to another structure at the upper end;
A second connection through hole formed through the upper end of the vertical link body is further provided,
When the first through-hole of the horizontal link body and the first connection through-hole of the vertical link body are connected, a bar-shaped inclined link unit connecting the second through-hole of the horizontal link body and the second connection through-hole of the vertical link body is further Buoyancy assembly, characterized in that provided. delete delete The method of claim 1,
The first connection screw portion,
a first connecting screw having one end rotatably fixed to the first bearing and the other end fixed to the shaft groove of the shaft;
a first nut engaged with the first connecting screw between the first connecting screw and the shaft; and
Buoyancy assembly comprising a; a first safety pin fixed through the shaft and the first connection screw.





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