KR200491407Y1 - Float made of a double pipe - Google Patents

Abstract

The present invention is composed of two pipes on the outside and the inside, which can prevent condensation caused by temperature difference, and relates to a buoy made of double pipes with enhanced durability. It is made of polyethylene (PE) or polypropylene (PP) by injection mold Continuously formed in the longitudinal direction, a plurality of partitions formed in a radial direction form a first space portion, and a double structure of an outer pipe and an inner pipe is formed to form a two-space portion to generate buoyancy in the inner central portion. In the buoy where a pair of covers are coupled to both sides of the body, the cover includes a plurality of partition walls formed at radial intervals between the outer hemisphere and the inner hemisphere, and a plurality of rings through which a rope is connected to the outer circumferential surface of the outer hemisphere It is molded by a separate mold to include, and pushes a pair of covers that are hemispherical on both sides of the body. We propose a buoy consisting of a double pipe, characterized in that it is fused and fusion-bonded by heating by a heater.
Therefore, the present invention prevents condensation by minimizing the temperature difference between the outside and the inside by the double pipe structure of the outer pipe and the inner pipe, and the first and second space portions, thereby preventing moisture from forming inside the buoy. It is possible to prevent the buoyancy from being weakened. In addition, as the double pipe structure and the plurality of partition walls firmly support the outer pipe and the inner pipe, durability is improved, and as the life is extended, maintenance is easy and more economical.

Description

Float made of a double pipe

The present invention relates to a bugu made of synthetic resin used in a cage farm, and more specifically, to a bugu made of a double pipe made of two pipes on the outside and inside to prevent condensation caused by temperature difference and strengthening durability. .

In general, a frame is connected to a cage and a sea farm where fish are trapped and fished using a net in the ocean, and a frame network connected to the bottom of the frame connected to the square is installed so that the bottom is located below the water surface by a weight. In the inside of the frame connected to the lower edge of the rim, a buoy is installed to prevent the frame from sinking to the bottom of the water surface.

However, in the related art, since the buoy that prevents the frame from going to the bottom of the water surface is made of non-corrosive and non-recyclable styrofoam, when the buoy is damaged by high waves, styrofoam fragments will be accumulated on the beach or float on the coast. However, there is a problem that the natural environment is damaged when disposing of the bugu.

On the other hand, in order to solve the above problems, the richer, which gives buoyancy to the frame, is made of high density polyethylene (Polyethylene) or high-strength rubber pipe and urethane, FRP, etc., coated with UV, and stronger than the buoy made of styrofoam. And improve recycling when disposing of the bugu.

Utility Model Publication No. 20-0448065 proposes a buoy that can reduce the cost of maintenance by improving water tightness as shown in FIG. 1.

The bugu is made of a combination of a hemispherical first body (1) and a second body (2), the first body (1) and the second body (2) is coupled by a coupler (3) to the inside The space part is formed in a spherical shape, and the rope connection body 5 is formed on the outside.

However, since these buoys are formed of a single layer, condensation occurs due to a temperature difference between the inside and the outside, so that the moisture gradually rises inside and there is a problem that the buoyancy is weakened.

In addition, since the durability corresponding to external forces such as ultraviolet rays and waves is weak, it needs to be replaced frequently, and thus, maintenance is not easy.

The present invention is to solve the above problems, and has an object to provide a buoy made of a double pipe that can prevent condensation caused by a temperature difference by configuring two pipes on the outside and the inside.

In addition, another object of the present invention is to provide a buoy made of a double pipe that improves durability and is easier to maintain.

The buoys made of double pipes according to the present invention are continuously molded in the longitudinal direction with polyethylene (PE) or polypropylene (PP) material by injection molding, and a plurality of radially formed partition walls are spaced to form a first space portion. , In the inner central portion, a pair of covers are coupled to both sides of a body composed of a dual structure of an outer pipe and an inner pipe so that a two-space portion can be formed to generate buoyancy, wherein the cover has an outer hemisphere and an inner hemisphere It is formed by a separate mold to include a plurality of partition walls formed at a radially spaced gap therebetween, and a plurality of rings to which the rope is connected to the outer circumferential surface of the outer hemisphere, and a pair of hemisphere-shaped covers are formed on both sides of the body. It is characterized in that it is in close contact and is fusion-bonded by heating by a heater.

According to the buoy made of a double pipe according to the present invention, condensation is prevented by minimizing the temperature difference between the outside and the inside by a double pipe structure of the outer pipe and the inner pipe, and the first space portion and the second space portion, thereby preventing the condensation. It is possible to prevent the buoyancy from weakening because moisture is not generated inside.

In addition, as the double pipe structure and the plurality of partition walls firmly support the outer pipe and the inner pipe, durability is improved, and as the life is extended, maintenance is easy and more economical.

1 is a cross-sectional view of a conventional bugu,
Figure 2 is an exploded perspective view showing a first embodiment of the bugu according to the present invention,
Figure 3 is an exploded perspective view of the bugu according to the present invention,
Figure 4 is a perspective view of the body according to the present invention.

A preferred embodiment of the present invention will be described in detail through the accompanying drawings.

The bulge made of a double pipe of the present invention is composed of a body 100 made of a cylindrical shape and a pair of covers 200 integrally coupled to both sides of the body 100, as shown in FIG. 2.

At this time, the body 100 and the cover 200 are made of polyethylene (PE) or polypropylene (PP), and are respectively manufactured by injection molding and a mold to be suitable for mass production.

The body 100 is composed of an outer pipe 10 and an inner pipe 20 formed inside the outer pipe 10, and the cover 200 includes an outer hemisphere 60 and the outer half Consisting of an inner hemisphere 70 formed inside the sphere 60, between the outer pipe 10 and the inner pipe 20, and between the outer hemisphere 60 and the inner hemisphere 70 In the space is formed.

In addition, a ring 61 for connecting a plurality of sub-spheres to each other using a rope is formed on the outside of the outer hemisphere body 60.

The inner pipe 20 is formed on the inner side of the outer pipe 10, as shown in Figures 3 and 4, a gap between the outer pipe 10 and the inner pipe 20, a plurality of partition walls 30 ) Is formed radially.

And between the outer pipe 10 and the inner pipe 20, a plurality of first space portions 40 are formed radially by a partition wall 30, and the inner pipe 20 is composed of an empty space. The second space portion 50 is formed.

The body 100 is molded in the longitudinal direction by extrusion, and can be used by cutting to the required length.

In addition, the cover 200 has a dual structure in which a plurality of partition walls 80 are spaced between the outer hemisphere 60 and the inner hemisphere 70 and are formed radially.

The bulge made of the double pipe of the present invention configured as described above is in close contact with each other on both sides of the body 100 in a hemispherical shape, and is tightly coupled to prevent moisture and air from penetrating by heating and fusion by a heater. Is done.

Accordingly, condensation is prevented by minimizing the temperature difference between the outside and the inside by the dual structure of the outer pipe 10 and the inner pipe 20 and the first space portion 40 and the second space portion 50, This prevents the buoyancy from weakening because no moisture is generated inside the buoy.

In addition, as the double pipe structure and the plurality of partition walls 30 firmly support the outer pipe 10 and the inner pipe 20, durability is improved, and as the life is extended, maintenance is easy and more economical.

10, 10a: outer pipe 11: engaging portion
20, 20a: inner pipe 30,80: bulkhead
31: wing 40: first space
50: second space part 60: outer hemisphere
61: ring 70: medial hemisphere
100,100a: Body 200: Cover

Claims (1)

It is continuously molded in the longitudinal direction from polyethylene (PE) or polypropylene (PP) material by injection molding, and a plurality of radially formed partition walls are spaced to form a first space portion, so that an inner central portion can generate buoyancy 2 In the buoy where a pair of covers are coupled to both sides of a body made of a dual structure of an outer pipe and an inner pipe so as to form a space portion,
The cover 200 includes a plurality of partition walls 80 formed at radially spaced intervals between the outer hemisphere 60 and the inner hemisphere 70, and a plurality of rings through which a rope is connected to the outer circumferential surface of the outer hemisphere 60 It is molded by a separate mold to include (61),
A buoy made of a double pipe, characterized in that the pair of covers 200 having a hemispherical shape are adhered to each other on both sides of the body 100 and heated and fusion-bonded by a heater.

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