KR101990541B1 - Buoy - Google Patents

Abstract

[0001] The present invention relates to a floating structure of a floating structure, and more particularly, to a floating structure having a semi-cylindrical shape in which an inner side is opened so that buoyancy can be maintained even when a buoyant material or a stiffener is not provided inside, Wherein the half body is formed as a cylindrical body and the half body extends from the inner periphery so that the end portions of the half bodies are in contact with each other at the time of bonding so that the inside is divided into a plurality of sections, A convex portion protruding higher than the edge is formed between the outer edge and the inner edge and a concave portion is formed between the convex portion and the outer edge and between the convex portion and the inner edge , And when the two halves are heated and fused, the iron (convex) portion melts and flows into the concave portion. to be.

Description

The rich {Buoy}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a floating structure that is floating on the sea.

Generally, buoy is a suspended structure on the sea. It is a term referring to a floating body that floats on the river or seawater for a cage farm, a water solar power generator, a wave power generator, and a marine garbage working line. It is also called a buoy.

The rich are made in various volumes depending on the required buoyancy, and there are various kinds of materials. Styrofoam, which is easy to break down, is adversely affected by water pollution. Therefore, it is a tendency to produce plastic products without making rich with only styrofoam in consideration of environment friendliness.

In the case of a bulky bulge, it is not easy to produce bulks at a time by injection molding. Therefore, usually, a half body is formed by cutting the bulb in half through an injection machine, and then a buoyant material , Styrofoam, etc.), or a stiffener for shape maintenance, and then the two halves are held in contact with each other and the abutting portions are heated and fused.

However, it is troublesome to prepare a separate buoyant material or a reinforcing material and fill it up before heating and welding of the half body.

In addition, since the generally manufactured rich material has a cylindrical shape which is completely empty, even if a buoyant material or a reinforcing material is filled therein, the strength is weak and breakage is frequently caused by the wave, so environmental pollution is caused by the buoyant material or reinforcing material .

In addition, in the case of a cylindrical hollow having no internal structure and completely empty, if a part is broken, the whole of the superflux loses buoyancy and is unable to perform its original function.

1. Korean Utility Model Utility Bulletin No. 20-1999-008278 'Aquaculture Buoyancy Buoy' 2. Korean Utility Model Publication No. 20-2014-0000713,

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a buoyancy material which is not provided with a buoyant material or a reinforcing material therein but is buoyant even when the buoyancy is partially damaged.

In order to accomplish the above object, the present invention provides a hollow body, wherein two semicylindrical semicylindrical bodies each of which is open to the inside are joined to each other to form a cylindrical body, the semicircular body extending from the inner circumferential edge, And a convex portion protruding higher than an edge is formed between the outer edge and the inner edge, and the convex portion is formed between the outer edge and the inner edge, And a concave portion is formed between the convex portion and the inner edge so that the convex portion melts and flows into the concave portion when the two half bodies are heated and fused.

According to the present invention, since the partition wall is formed so as to extend from the inner periphery to the inner periphery in the inside of the half which is joined to each other to be abutted to each other at the time of joining, the strength that can withstand the wave power can be secured without filling the additional reinforcement, The inner part of the rich part is divided into a plurality of compartments. Even if a part of the compartments are broken, the buoyancy is maintained at a certain level due to the air contained in the remaining compartments.

FIG. 1 is a perspective view showing the overall structure of the present invention,
FIG. 2 is an exploded perspective view showing a rich state according to the present invention, FIG.
3 is a plan view showing a structure of a half body applied to a rich body according to the present invention,
FIG. 4 is a partially enlarged view showing a structure in which concavities and convexities are formed at edges of a rim and a partition wall,
5 is a side view showing a structure of a half body applied to a rich body according to the present invention,
6 is a cross-sectional view showing a structure of a half body applied to a rich body according to the present invention;

In the present invention, two semi-cylindrical semi-cylinders, which are open to the inside, are joined to each other to form a cylindrical body so that buoyancy can be maintained even when a buoyancy material or a stiffener is not provided inside, Wherein the half body is formed with a plurality of compartments such that ends of the half body extend from the inner periphery and the ends of the half bodies are in contact with each other, And a concave portion is formed between the convex portion and the outer edge and between the convex portion and the inner edge so that when the two half bodies are heated and fused, Convex) portion melts and flows into the concave portion.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

Hereinafter, a buoy of the present invention will be described in detail with reference to FIGS. 1 to 6 attached hereto.

1 and 2, the body of the present invention is formed into a cylindrical body A, and the body A is formed by bonding two semi-cylindrically shaped half bodies 100, which are hollow inside.

In this case, the body A may be made of various materials. However, it is preferable that the body A is made of a material such as a synthetic resin which does not easily break due to its strength to a certain extent, ) Is made of a synthetic resin such as plastic or the like.

The half body 100 is formed such that a plane part of the semi-cylindrical shape to be joined is opened, and the two half bodies 100 are joined to each other to form a cylindrical body A. At this time, although the bonding may be performed by various methods, it will be explained below that the bonding is performed by a heat welding method in which mutual contact portions of the half bodies 100 are heated and fused.

The half body 100 in the present invention is formed with the partition wall 110 extending from the inner periphery as shown in Figs. Accordingly, the inside of the half body 100 is formed of a plurality of sections 120, and the side where the sections 120 are joined is opened.

When the two half bodies 100 having the barrier ribs 110 are brought into mutual abutment with each other through the heat welding method, the body A has a plurality of closed compartments 120 formed therein.

The barrier ribs 110 may be formed along the longitudinal direction or the transverse direction. However, in order to improve the efficiency in terms of strength enhancement and breakage, when the longitudinal direction and the lateral direction, that is, , It is preferable that they are formed along the direction forming the height and the direction forming the length. When the body (A) is manufactured by joining the two half bodies (100) formed with the partition walls (110), the body (A) has a circular partition wall (110) and a circular partition wall A rectangular partition wall 110 is formed.

Therefore, the body A formed by joining the half body 110 formed with the partition 110 extending from the inner periphery to the inner periphery and joined to each other forms a skeleton inside the partition 110, Even if it does not exist, it secures the strength enough to withstand the wave.

The inside of the body A is divided into a plurality of compartments 120 which are sealed by the partition 110 so that a part of the body A is broken by external factors and water flows into the compartment 120 The buoyancy is maintained over a certain level due to the air contained in the remaining closed compartment 120, so that it can be continuously used.

2 and 3, the partition 120a at both ends of the half body 100 is longer than the partition 120b formed at the inside of the half body 100, Can be formed short.

At least two of the partition walls 110 are formed in the inside of the half body 100 in the longitudinal direction so that the half body 100 includes the partition 120a at both ends as well as the partition 120b inside the partition 120a. In order to effectively reinforce the strength of the body A, at least one partition 110 may be formed in the body 100 in the longitudinal direction as well as in the transverse direction.

The partition 120a at both ends of the half body 100 formed by the partition wall 110 is formed to be shorter than the partition 120b formed at the inside of the half body 100. The partition 120a is adjacent to both ends of the half body 100, The strength at which the both ends of the half body 100 can withstand the wave force is greater than that at the inside.

In the present invention, when both ends of the half body 100 are broken due to the wave force, water flows into a part of the sections 120a at both ends, The length of the partition 120b formed on the inner side is longer than that of the partition 120a into which the water flows, so that sufficient buoyancy can be maintained so that the body A floats on the water.

The half body 100 formed with the barrier ribs 110 are joined to each other to form a cylindrical body A. The junction is formed by the rim 130 of the half body 100, As shown in Fig. The rim 130 of the body 100 and the rim 130 of the ridge 100 and the end 111 of the partition 100 of the body 100 are positioned on the side of the partition 100 of the ridge 100, They are joined when they come into contact with the end portions 111.

4 and 6, the concave and convex portions 10 and 20 may be formed on the edge 130 of the rim 130 and the barrier rib 110. In this case, By forming the mutually abutting portions for the formation of the body A, the protruded portions can easily flow into the melted and embedded portions through the heat fusion method.

Accordingly, when the edges 130 and the end portions 111 of the barrier ribs 110 are heated, the reaction is rapidly caused by the heat, and the bonding is neat as compared with the case where the abutting portions are flat.

4, the rim portion 130 formed on the rim 130 and the end portion 111 of the partition 110 is formed on both sides of the convex portion 20, .

That is, the convex portion 20 protruded between the outer edge and the inner edge of the rim 130 forms the convex portion 20, the outer rim, and the convex portion 20 And a concave portion is formed between the inner edge and the inner edge. The convex portion 20 protrudes between the outer edge and the inner edge of the partition wall 110 and forms an end 111 of the partition wall 110. The convex portion 20 and the outer edge, And a concave portion is formed between the convex portion 20 and the inner edge.

Only the convex portion 20 melts at the time of heat fusion or the convex portion 20 and the edge melt together according to the height difference between the convex portion 20 and the edge, It flows. This can be selected in consideration of the use of the present invention, the use environment, the manufacturing environment, and the like. However, as shown in FIG. 6, the convex portion 20 is formed higher than the edge, 20 may flow into the concave portion in the process of melting and fusion so that the edges of the half body 100 are held.

5 and 6, it is preferable that the width of the rim 130 at which the half body 100 is joined is wider than the width of the end 111 of the partition 110. This is to reinforce the strength 130 to prevent the rim 130 of the half 100 directly affected by external factors from being worn by the wave after being joined.

At this time, the thickness formed by the outer periphery and the inner periphery of the half body 100 may be equal to the width of the rim 130. However, if the thickness is made thick, the manufacturing cost is increased, (100).

As described above, according to the present invention, since the inside of the rich part of the present invention is divided into the plurality of compartments 120 by the partition 110, it is possible to have a certain strength and buoyancy without using a separate reinforcing material and buoyant material. The width of the rim 130 is wider than the width of the end portion 111 of the partition 110 to reinforce the strength of the joined portion It is.

1 and 5, the fastening groove 140 is formed along the outer periphery of the body 100, and the fastening groove 140 is fastened to the fastening groove 140 by fastening means such as a sling or the like, It can be used as a source to float on the river or seawater, such as farms, water solar power generators, wave generators, and marine litter work lines.

A: Body
10: concave portion 20: convex portion
100: half body 110:
111: end portions 120 (120a, 120b) of the partition:
130: rim 140: fixing groove

Claims (5)

Two semicylindrical half bodies 100 having an open side to which the inside is joined are joined to each other to form a cylindrical body A,
The half body 100 includes a plurality of compartments 120, which are formed from a plurality of compartments 120,
A convex portion 20 protruding higher than an edge between the outer edge and the inner edge is formed in the edge 130 of the half body 100 and the edge 111 of the barrier 110, A concave portion 10 is formed between the convex portion 20 and the outer edge and between the convex portion 20 and the inner edge,
Characterized in that the convex portion (20) melts and flows into the concave portion (10) when the two half bodies (100) are heated and fused. The method according to claim 1,
The barrier ribs 110 are formed in the longitudinal and transverse directions,
Wherein the partition (120a) at both ends of the half body (100) formed by the partition (110) is shorter than the partition (120b) formed at the inside. The method according to claim 1,
The width of the rim 130 at which the half body 100 is joined is wider than the width of the end portion 111 of the partition 110,
And the rim (130) protrudes from the outer periphery of the half body (100). delete delete

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