KR200389744Y1 - A buoy with a built-in compressed styrofoam for fishculture - Google Patents

Abstract

The present invention relates to a marine aquatic float made of styrofoam material, and more specifically, a high density compressed styrofoam of a cylindrical, polygonal or spherical shape is embedded in a float body made of low density styrofoam material. As the ball is introduced into the water, the inside of the ball is prevented from being warped or damaged due to the water pressure. A surface coating film made of synthetic resin is surrounded on the outer circumference of the ball to prevent the surface of the ball from being worn or broken. The present invention relates to a marine aquatic buoy with a compression styrofoam embedded therein.

Description

A buoy with a built-in compressed styrofoam for fishculture}

The present invention relates to a marine aquatic float made of styrofoam material, and more specifically, a high density compressed styrofoam of a cylindrical, polygonal or spherical body is integrally built into a float body made of a low density styrofoam material. The ball is introduced into the water to prevent the inside of the ball from being warped or damaged due to the water pressure. The outer surface of the ball body is surrounded by a surface coating film made of synthetic resin. The present invention relates to a marine aquatic buoy with a compressed styrofoam, which is configured to prevent the damage.

Buoys, which are generally used for sea farming, are also called buoys, which are used to support fishing nets on the surface of the water.The fishing nets are connected by ropes from side to side, and the bridges are formed at regular intervals between the ropes on both sides. It is attached and used.

However, the conventional tubular ball made of synthetic resin material has a problem in that the air inside the ball is easily deformed or deformed due to expansion of the sea level and hot solar heat in the summer, and thus it cannot be used. In the case of the ball made of styrofoam material, In order to increase the buoyancy of the buoy, the styrofoam is made of low-density styrofoam (compressive strength of 0.5 ~ 2.0 kg / ㎠), so that the styrofoam is easily worn or broken by waves, etc. While the inside of the ball is twisted or badly damaged by the water pressure, there is a problem that the buoyancy is sharply lowered due to the water penetrated inside.

The present invention is to solve the problems as described above, the high density compression styrofoam inside the float body made of low-density styrofoam material to maintain a certain buoyancy, while the inside of the ball is distorted or damaged by water pressure when the ball enters the water The purpose of the present invention is to prevent the water from being penetrated by the vinyl coating on the compressed styrofoam or to form a surface coating film on the outer peripheral surface of the secondary body.

In order to achieve this purpose, a high density compressed styrofoam of cylindrical, polygonal or spherical body is integrally built into the inside of the float body made of low density styrofoam material, and the surface of the float body is made of synthetic resin such as polyethylene. The coating film is enclosed, and the outer peripheral surface of the compressed styrofoam is characterized in that the vinyl coating treatment.

Hereinafter, the preferred configuration according to the present invention will be described in detail by the drawings.

The marine culture buoy (1) is a built-in compression styrofoam according to the present invention relates to the marine culture float made of styrofoam material, as shown in Figures 1 to 4, the interior of the float body (2) made of low density styrofoam material The high density compressed styrofoam (3) of cylindrical, polygonal, or spherical shape is integrally built in, and the inside of the ball is prevented from being warped or damaged due to water pressure as the ball enters the water by strong waves. The outer circumferential surface of the secondary body 2 is surrounded by a surface coating film 6 made of synthetic resin to prevent the surface of the secondary body 2 from being worn or chipped.

The float body (2) is a part that floats the float (1) on the water surface in a variety of shapes, such as cylindrical or spherical, styrofoam of low density of about 0.5 ~ 2.0 kg / ㎠ compressive strength to maintain a constant buoyancy It is.

The compressed styrofoam (3) is in the same shape as the secondary body (2) is cylindrical or polygonal or spherical, but is integrally embedded in the inner center portion of the secondary body (2) has a compressive strength of 5 It is compressed to a high density of ~ 20kg / ㎠ to maintain the original state without being deformed or destroyed by water pressure even when the mouth 1 is introduced into the water, as shown in Figure 2 of the compression styrofoam (3) A plurality of grooves 4 are formed on the outer circumferential surface so that the compression styrofoam 3 positioned inside the float body 2 is more firmly attached to the float body 2 during the manufacture of the float 1. You can do that.

In addition, the compressed styrofoam (3) is coated with a material such as vinyl (5) on its outer peripheral surface as shown in Figure 3 when the water penetrates into the inside of the mouth (1) by a strong hydraulic pressure (3) Inside) can be blocked to prevent water from penetrating to maintain a constant buoyancy.

The surface coating film 6 is made of a synthetic resin material such as polyethylene (polyethylene) and by forming a protective film of a predetermined thickness on the surface of the secondary body (2) to prevent the secondary body (2) made of low density styrofoam to wear or fragment And to prevent water from penetrating into the inside of the secondary body (2), in order to prevent the deterioration due to the ultraviolet rays of the sun and the like added with a sunscreen may be formed a coating film of a certain thickness on the surface, If necessary, when the outer surface of the compressed styrofoam 3 is coated with vinyl 5 or the like, the surface coating film 6 may not be formed on the surface of the secondary body 2.

The surface coating film 6 is applied to the entire surface of the globule body 2 or the synthetic resin of liquid or made of a separate protective cover to cover the globule body (2) to form a coating film.

Referring to the preferred manufacturing process of the float according to the present invention.

As shown in FIG. 4, after the molds 7a and 7b having a predetermined shape are formed according to the shape of the mouth 1, the styrofoam particles 8 having low density are fixed to the lower mold 7a. In a state where the thickness is tightly packed, the compressed styrofoam 3 having a cylindrical, polygonal or spherical shape is placed at the center of the upper part, and then the material formed on one side of the upper mold 7b while covering the upper mold 7b. The low-density styrofoam particles 8 are introduced through the inlets 9 so that the styrofoam particles 8 are filled with the inside of the mold 7a and 7b as a whole, and the steam jet port formed on the other side of the upper mold 7b ( 10) by spraying steam at about 100 ° C. by heating and foaming the styrofoam particles 8, the high-density compressed styrofoam 3 and the low-density styrofoam particles 8 are integrally and firmly attached to the compressed styrofoam 3. This integrally embedded float body (2) And the property, thereby completing the surface-coating film (6) to schedule the sea form the float (1) for compressed foam is built of the present invention is applied to a thickness of a material such as polyethylene to the outer peripheral surface of the float body (2).

As described above, according to the present invention, a high density compressed styrofoam is integrally integrated into a float body made of a low density styrofoam material to prevent the inside of the float from being twisted or damaged by water pressure while maintaining a certain buoyancy. In addition, the vinyl coating on the compressed styrofoam or forming a surface coating film on the outer peripheral surface of the secondary body has an effect of preventing water from penetrating into the inside or the surface of the secondary body being worn or fragmented.

1 is a perspective view of a part of the sea culture buoy cut according to the present invention

Figure 2 is a partially cutaway perspective view of a state in which a plurality of grooves are formed in the compression styrofoam of the marine aquatic buoy according to the present invention

3 is a partially cutaway perspective view of a state in which the compression styrofoam of the marine aquatic buoy according to the present invention the vinyl coating

Figure 4 is a schematic diagram showing the process of manufacturing aquaculture floats according to the present invention

<Description of Symbols for Main Parts of Drawings>

1. Marine culture ball

2. floating body

3. Compression Styrofoam

4. Groove

5. Vinyl

6. Surface coating film

7a, 7b. Mold

8. Styrofoam particles

9. Material inlet

10. Steam jet

Claims (4)

In the marine culture float made of styrofoam material, a high density compressed styrofoam (3) of cylindrical, polygonal or spherical shape is integrally integrated in the inner central portion of the float body (2) made of low density styrofoam material. The marine aquatic buoy with a built-in compression styrofoam characterized in that it prevents the inside of the ball (1) from twisting or breaking. According to claim 1, wherein the compressed styrofoam 3 has a plurality of grooves (4) formed on the outer circumferential surface of the compression styrofoam (3) is located inside the secondary body (2) when manufacturing the secondary ball (1) 2) and the marine culture buckle with a compression styrofoam, characterized in that the production is more firmly attached to one another. The compressed styrofoam 3 is characterized in that the compressed styrofoam (3) is coated with a vinyl (5) on the outer peripheral surface to block water from penetrating the inside of the compressed styrofoam (3). Marine aquatic floats. According to one of claims 1 to 3, the secondary body 2 is surrounded by a surface coating film 6 made of a synthetic resin material such as polyethylene on the outer circumferential surface of the surface of the secondary body 2 is worn or chipped Marine cultured ball with a built-in compression styrofoam, characterized in that to prevent.