KR20230009145A - Eco-friendly oyster shell buoy to prevent microplastics and manufacturing method - Google Patents

Abstract

An eco-friendly oyster shell buoy for preventing the generation of microplastics according to the present invention comprises: a spherical tube filled with air and having buoyancy; and a mixed material containing oyster shell powder and cement mixed in a ratio within a certain range, wherein the mixed material is applied to the outside of the spherical tube to a certain thickness and hardened and includes water treatment on a surface of the spherical tube or the mixed material. According to the present invention having such a configuration, it is possible to provide the eco-friendly oyster shell buoy for preventing the generation of microplastics that is inexpensive, stable, and does not adversely affect a marine ecosystem even after use.

Description

Eco-friendly oyster shell buoy and manufacturing method to prevent microplastics {ECO-FRIENDLY OYSTER SHELL BUOY TO PREVENT MICROPLASTICS AND MANUFACTURING METHOD}

The present invention is to manufacture a buoy for aquaculture using oyster shell powder in order to prevent the generation of waste styrofoam, which is the main cause of microplastics, in coastal aquaculture farms. More specifically, a material in which oyster shells are mixed with concrete It relates to a method for manufacturing an eco-friendly buoy with improved light weight and durability using.

Marine debris generated in the sea is mainly plastic (60-80%), and 45% of the world's marine mammals are continuously suffering ecological damage from marine debris, emerging as an international pending issue. The United Nations estimates the amount of damage to the ecosystem caused by marine debris to be 13 billion dollars (about 14 trillion won) annually worldwide, and the UK pays about 250 dollars a year for its disposal.

Styrofoam accounts for about 55% of the plastic waste generated on the coast of Korea, and it is a major cause of microplastics in the form of buoys and broken pieces.

The Ministry of Maritime Affairs and Fisheries has implemented a project to support the supply of eco-friendly high-density buoys, and the government has decided to completely replace Styrofoam buoys at aquaculture sites by 2025. About 280,000 to 330,000 tons of oyster shells are generated annually, but they are stored or left unattended due to low recycling demand compared to the amount generated.

Styrofoam and previously developed eco-friendly buoys are being used in Japanese fish farms. Most of China uses Styrofoam buoys, and the eco-friendly concept is not established, but if the currently used buoys are replaced with eco-friendly buoys, the market size is expected to be more than 28 times that of Korea. In the case of Taiwan, it was investigated that ESP buoys made of Styrofoam foam material were the most common among coastal garbage.

Microplastics are defined as carcinogens by the US Environmental Protection Commission and the International Cancer Society, and do great damage to the marine ecosystem as they remain in the sea in a micronized state without being naturally decomposed.

Currently, Korea is the 7th largest aquaculture industry in the world, producing more than 500,000 tons of aquaculture organisms per year, and Korea's marine debris generation amounts to about 200,000 tons per year, of which about 33.7% is based on the volume of Styrofoam buoys. 52 million buoys (60L, 41 million, 20L 1,200) are used at the aquaculture site, and more than 80% of them are supplied as Styrofoam, which is mass-producing marine debris. The government has completely replaced them with eco-friendly buoys to prevent microplastics as part of an 8-year plan. plan to do

It is known that 83.0% of daphnia exposed to microplastics die.

Figure 1 shows an eco-friendly buoy used for aquaculture, (a) is an injection type buoy, (b) is a coating buoy, (c) is an EPP buoy, (d) shows a multi-cell buoy.

Eco-friendly buoys have been disseminated to replace EPS buoys since 2015, as it was pointed out that the existing EPS buoys are the main cause of microplastics. Seven eco-friendly buoys have been developed to suit the use of seaside fish farms, such as plastic material buoys that replace Styrofoam, seaweed farms, cages, and rafts. The domestic eco-friendly buoy market is worth 1.5 trillion won (Applying an average of 30,000 won per piece), and as a livelihood industry, it is forming a market of about 300 billion won a year (when buoys are replaced every 5 years).

Since 2017, the government has stopped supporting high-density Styrofoam buoys and limited support to eco-friendly buoys, and has decided to completely replace Styrofoam buoys at aquaculture sites by 2025. Recognizing the seriousness of social and economic damage, the government or local governments have been implementing the eco-friendly buoy certification system as a guideline for the development and distribution of eco-friendly buoys in order to establish strong measures against the use of buoys in fish farms since 2018.

The existing Styrofoam buoy is the most efficient buoyant body that maintains its own buoyancy, but is severely oxidized by the sun and crumbled by external impact, so it is very easily broken down into microscopic pieces of plastic and does not disappear and floats in the sea, creating a serious environment. There is a problem that causes problems (the Environmental Protection Agency of the United States classifies pieces of Styrofoam as carcinogens).

Styrofoam buoys have a short durability life, are broken into small pieces, and are difficult to collect and dispose of. There are problems with marine ecosystems and damage to the fishing village tourism business, such as mistaking marine life for food and leading to death. PE-Styrofoam buoys developed as an alternative to Styrofoam buoys have the advantage of resisting external impact and improving durability by using polyethylene material to protect the surface of Styrofoam, but are expensive, weak against UV rays, and in case water permeates inside It is not leached, so there is a great concern about sedimentation. In addition, there is a problem that waste treatment should be separated into two parts, and environmental hormones may be released during incineration.

Buoys developed with PE-Styrofoam are twice the weight and three times more expensive than existing Styrofoam buoys, so fishermen avoid them. It is also pointed out as a problem that it is very inconvenient to install and collect due to excessive volume or weight or bouncy phenomenon.

Styrofoam buoys made of ESP material used in fish farms take 500 years to decompose naturally, and plastic buoys made of PE/PP also have a problem of taking more than 80 years.

Republic of Korea Patent Registration No. 10-2240753 (Name: Eco-friendly buoy for downwater farming and farm installation structure using it, registration date: 2021.04.09. )

The present invention is to provide an eco-friendly oyster shell buoy for preventing the generation of microplastics that is inexpensive, stable, and does not adversely affect the marine ecosystem even after use in order to solve the problems described above.

Technical problems of the present invention are not limited to those mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

An eco-friendly oyster shell buoy for preventing the occurrence of microplastics according to a preferred embodiment of the present invention, which was devised to achieve the above object, is a spherical tube filled with air and having buoyancy, and oyster shell powder and cement within a certain range. It includes a mixed material mixed in a ratio, and the mixed material is applied to the outside of the spherical tube in a constant thickness and cured, and it is characterized by including a water order treatment on the surface of the spherical tube or the mixed material.

In addition, the mixing ratio of the mixed material used in the manufacture of an eco-friendly oyster shell buoy for preventing the occurrence of microplastics according to a preferred embodiment of the present invention is a ratio of oyster shell powder to 50% or more and 70% or less of cement on a volume basis. It is characterized by being

In addition, in the method of manufacturing an eco-friendly oyster shell buoy for preventing the occurrence of microplastics according to a preferred embodiment of the present invention, the wall thickness determination step of determining the thickness of the buoy wall, the length corresponding to the thickness determined in the wall thickness determination step A guide installation step of installing a thickness guide inside the spherical formwork, a pre-injection step of injecting a certain amount of mixed material into the spherical formwork, a spherical tube with a diameter considering the length of the thickness guide is injected into the spherical formwork, and air is blown into the spherical formwork Air injection step of injecting, post-injection step of injecting the mixed material into the space between the spherical tube and the spherical formwork, curing step of curing the mixed material introduced in the pre-injection step and post-injection step, and the cured surface of the mixed material with water-repellent treatment It is characterized in that it comprises a water treatment step to.

In addition, in the method of manufacturing an eco-friendly oyster shell buoy for preventing the occurrence of microplastics according to a preferred embodiment of the present invention, the wall thickness determination step of determining the thickness of the buoy wall, the length corresponding to the thickness determined in the wall thickness determination step Guide installation step of installing a thickness guide inside the hemispherical formwork, form fastening step of fastening the hemispherical formwork on both sides to the outside of the spherical tube into which air is injected, mixed material injecting the mixed material into the space between the spherical formwork and the hemispherical formwork It is characterized in that it includes an input step, a curing step of curing the mixed material introduced in the mixed material input step, and a water order treatment step of orderly treating the hardened surface of the mixed material.

In addition, the method of manufacturing an eco-friendly oyster shell buoy for preventing the occurrence of microplastics according to a preferred embodiment of the present invention is a formwork manufacturing step of manufacturing a hemispherical molded form using fixed walls respectively installed on the upper and lower sides, the hemispherical surface A buoy forming step of injecting the mixed material into the molding die and inserting connecting members such as connecting bolts into the connecting parts at both ends, a buoy combining step of combining a pair of hemispherical buoys formed in the buoy forming step, and a buoy combining step Characterized in that it comprises a connection part finishing step of using a filling material such as mortar for the connection between a pair of hemispherical buoys coupled in and a water order treatment step of orderly processing the surface of the pair of hemispherical buoys and the connection part surface. to be

According to one embodiment of the present invention, there is an effect of being able to provide an eco-friendly oyster shell buoy for preventing the occurrence of microplastics that is inexpensive, stable, and does not adversely affect the marine ecosystem even after use.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing several examples of eco-friendly buoys according to the prior art.
2 is an exemplary view of a method for manufacturing an eco-friendly oyster shell buoy using a spherical tube according to an embodiment of the present invention.
3 is an exemplary view of a method for manufacturing an eco-friendly oyster shell buoy using a hemispherical formwork according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings to the extent that those skilled in the art to which the present invention pertains can easily practice the present invention.

In describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly convey the gist of the present invention without obscuring it by omitting unnecessary description.

For the same reason, in the accompanying drawings, some components are exaggerated, omitted, or schematically illustrated. Also, the size of each component does not fully reflect the actual size. In each drawing, the same reference number is given to the same or corresponding component.

The eco-friendly buoy provided through the present invention uses oyster shell powder at about 50 to 70% of cement, is manufactured with an empty structure to secure buoyancy, and is lightweight by filling materials such as spherical tubes or air caps inside. It is characterized by doing.

In addition, in order to prevent submersion into the inside of the buoy, it is characterized by water-repellent treatment in the same way as inner wall coating.

As described above, the eco-friendly buoy according to the present invention is made of a mixture of oyster shells and concrete (5), so it requires a formwork, and the manufacturing method can be considered in two ways, such as ① and ② below.

① A method of injecting the mixed material into the mold using a hole of a certain size in a spherical formwork, then inserting a spherical tube of a certain diameter and applying air pressure to harden the mixed material (FIG. 2)

2 is an exemplary view of a method for manufacturing an eco-friendly oyster shell buoy using a spherical tube according to an embodiment of the present invention.

Referring to FIG. 2 (a), the manufacturing method of an eco-friendly oyster shell buoy using a spherical formwork 20 and a spherical tube 10 consists of the following sequence and steps.

1) Determination of the thickness of the buoy walls.

2) Install the thickness guide 22 inside the spherical formwork 20 with a length corresponding to the determined thickness.

3) A certain amount of mixed material (5) is put into the spherical formwork (20).

4) Inject air by inserting a spherical tube 10 having a diameter considering the length of the thickness guide 22.

5) The mixed material (5) is put into the space between the spherical tube (10) fitted to the thickness guide (22) and the spherical formwork (20) and hardened.

* When using this method, the order effect can be obtained by utilizing the internal spherical tube (10)

Referring to Figure 2 (b), the manufacturing method of the eco-friendly oyster shell buoy using the hemispherical formwork 21 includes the following sequence and steps.

1) Determination of the thickness of the buoy walls.

2) Install the thickness guide 22 inside the hemispherical formwork 21 with a length corresponding to the determined thickness.

3) Fasten the hemispherical formwork 21 to the outside of the spherical tube 10 from both sides.

4) The mixed material (5) is put into the space between the spherical tube (10) aligned with the thickness guide (22) and the hemispherical formwork (21) and cured.

* When using this method, the order effect can be obtained by utilizing the internal spherical tube (10)

② A method of combining after curing the mixed material to a certain thickness by manufacturing a hemispherical formwork (Fig. 3)

3 is an exemplary view of a method for manufacturing an eco-friendly oyster shell buoy using a hemispherical formwork according to an embodiment of the present invention.

하방고정벽체(60,50)를 이용한 친환경 굴 패각 부표의 제작방법은 아래와 같은 순서 및 단계를 포함한다.Referring to Figure 3, the hemispherical surface forming formwork 30 and the upper

The manufacturing method of the eco-friendly oyster shell buoy using the lower fixed walls 60 and 50 includes the following sequence and steps.

하방고정벽체(60,50)를 이용하여 반구면성형거푸집(30)을 제작. 1) Award

Using the lower fixed walls (60, 50), the hemispherical surface forming formwork (30) is produced.

2) Inject the mixed material (5) into the hemispherical mold (30) and insert the connecting bolt (35) or the like into the connection part.

3) Connected to the rest of the hemispherical buoy body.

4) The connection between the hemispherical buoy bodies is connected using a connecting bolt 35, a coupler, etc., and then connected using a filling material such as mortar.

* The coating agent inside the buoy can be used selectively, and it is necessary to secure the watertightness of the connection part.

As described above through FIGS. 2 and 3, the shape of the buoy according to the present invention can be applied in a spherical or cylindrical shape, and the size, thickness, and mixture of materials (oyster) to satisfy the performance standards required by the eco-friendly buoy test standards as follows The mixing ratio of shells, cement, etc.) can be adjusted.

- Buoyancy: (Displayed volume × 0.7) - More than its own weight

- Internal density: 18 kg/m3 or more

- Impact resistance: No cracks, damage, or tears on the surface

- Seawater pressure resistance: No cracks, damage, or tears in the buoy

- Thermal fatigue: No deformation of the exterior, more than 90% of the initial buoyancy

- Environmental hazards:

Organotin compounds (TBT, TPT) Undetected flame retardants (PBBs, PBDEs, TBBPA, HBCD) Undetected heavy metals (Sb, Cr, As, Pb, Ba, Hg, Cd, Se) below the following standards

* Sb 60 or less, Cr 60 or less, As 25 or less, Pb 90 or less,

* Ba 1,000 or less, Hg 60 or less, Cd 75 or less, Se 500 or less.

On the other hand, in the present specification and drawings, preferred embodiments of the present invention are disclosed, and although specific terms are used, they are only used in a general sense to easily explain the technical content of the present invention and help understanding of the present invention. It is not intended to limit the scope of the invention. It is obvious to those skilled in the art that other modifications based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

5: mixed material
10: spherical tube
20: spherical formwork
21: hemispherical formwork
22: thickness guide
30: Hemispherical molding formwork
35: connecting bolt
50: lower fixed wall
60: upper fixed wall

Claims (5)

A spherical tube filled with air and having buoyancy; and
A mixed material in which oyster shell powder and cement are mixed in a ratio within a certain range;
The mixed material is applied to the outside of the spherical tube in a constant thickness and cured,
Eco-friendly oyster shell buoy for preventing the occurrence of microplastics, characterized in that it comprises a water order treatment on the surface of the spherical tube or the mixed material.
According to claim 1,
The ratio is
An eco-friendly oyster shell buoy for preventing the occurrence of microplastics, characterized in that the oyster shell powder is 50% or more and 70% or less of cement on a volume basis.
In the manufacturing method of the eco-friendly oyster shell buoy according to claim 1 or 2,
a wall thickness determination step of determining the thickness of the buoy wall;
A guide installation step of installing a thickness guide inside the spherical formwork with a length corresponding to the thickness determined in the wall thickness determination step;
a pre-injection step of injecting a predetermined amount of the mixed material into the spherical formwork;
An air injection step of injecting a spherical tube having a diameter considering the length of the thickness guide into the spherical mold and injecting air into the spherical tube;
a post-injection step of injecting the mixed material into the space between the spherical tube and the spherical formwork;
A curing step of curing the mixed material introduced in the pre-injection step and the post-injection step; and
A water order treatment step of water order treatment on the hardened surface of the mixed material;
Method for producing an eco-friendly oyster shell buoy for preventing the occurrence of microplastics, characterized in that it comprises a.
In the manufacturing method of the eco-friendly oyster shell buoy according to claim 1 or 2,
a wall thickness determination step of determining the thickness of the buoy wall;
A guide installation step of installing a thickness guide inside the hemispherical formwork with a length corresponding to the thickness determined in the wall thickness determination step;
A form fastening step of fastening the hemispherical form from both sides to the outside of the spherical tube into which air is injected;
A mixed material input step of injecting the mixed material into the space between the spherical tube and the hemispherical formwork;
a curing step of curing the mixed material introduced in the mixed material input step; and
A water order treatment step of water order treatment on the hardened surface of the mixed material;
Method for producing an eco-friendly oyster shell buoy for preventing the occurrence of microplastics, characterized in that it comprises a.
In the manufacturing method of the eco-friendly oyster shell buoy according to claim 1 or 2,
A formwork manufacturing step of manufacturing a hemispherical formwork using fixed walls installed on the upper and lower sides, respectively;
A buoy forming step of injecting the mixed material into the hemispherical mold and inserting connecting members such as connecting bolts into connecting parts at both ends;
A buoy coupling step of combining a pair of hemispherical buoys formed in the buoy forming step;
A connection part finishing step of finishing using a filling material such as mortar at the connection part between the pair of hemispherical buoys coupled in the buoy coupling step; and
A water order treatment step of order treatment for the surface of the pair of hemispherical buoys and the surface of the connection part;
Method for producing an eco-friendly oyster shell buoy for preventing the occurrence of microplastics, characterized in that it comprises a.

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