KR101013888B1 - Rope for sea farming using natural fibers - Google Patents

Abstract

PURPOSE: A rope for the farming seaweed using natural fiber is provided, which makes a rope float on the sea without sinking into the sea until spat grows. CONSTITUTION: A rope for the farming seaweed using natural fiber is formed by twisting a rope made of coconut fiber material and a rope made of paper mulberry fiber material. In the rope for the farming seaweed, the rate of the coconut fiber is 70-90 weight% and the rate of paper mulberry fiber is 10-30 weight%. The rope for the farming seaweed includes a core rope(120) locating in the center of the rope and a coating rope(110) covering the outer side of the core rope.

Description

Rope for sea farming using natural fibers

The present invention relates to a marine algae aquaculture rope using natural fibers, and more particularly, the core rope is formed of a natural fiber material having good adhesion but weak tensile strength of the seaweed, without interfering with the adhesion of the seaweed The present invention relates to a seaweed farming rope using natural fibers that twist the rope with long strands of natural fiber material to compensate for the insufficient tensile strength.

In general, seaweed cultures such as wakame seaweed and seaweed are mainly used with seaweeds with ropes, and the seaweeds with ropes are installed at a certain depth below the surface by inserting or winding separately seeded ropes on the ropes. How to farm algae.

The algae farming method using the rope is attached to the rope at intervals of 5 to 6m, the moxibustion between the rope and the rope is connected to the moxibustion line by the length of the moxibustion by adjusting the depth of the rope to 1m below the surface of the seaweed attached to the rope To grow up.

However, conventionally, the rope is used for the rope attachable form as described above, and it is not corroded for a long time by using glass fiber and synthetic resin such as nylon, polyethylene, and polypropylene, and is not properly collected after seaweed culture. There was a problem polluting coastal oceans.

In addition, as described above, the rope made of synthetic resin fibers has a smooth surface, and the breeding seeds attached to the surface are swept away by the wave, and the breeding rate is extremely low, and even though the algae grown to some extent is difficult to attach the roots. It has a disadvantage that the productivity of seaweed is lowered.

Therefore, in order to solve the above drawbacks, a natural fiber material and a synthetic resin material may be used together, such as Korean Utility Model Publication No. 1998-016570 Coir polyester rope.

In other words, a rope made by winding a large number of strands of Fire Palm, manufactured by processing palm fruit, which is a natural fiber material, may be used by braiding a rope made by combining polyester fibers with each other. However, the rope is shortened by the length of the raising of the fire palm yarn due to the friction generated during the formation of the fire palm yarn and the polyester fiber, so that the seed pads are inductively attached to the gap between the strands of the fire palm yarn and caused by the flow of tide Although it has the effect of minimizing the dropout of the seed, this is because the use of polyester as the material of the rope does not help to prevent the pollution of the sea due to the characteristics of the synthetic resin fiber resistant to corrosion.

Therefore, in order to solve the above problems, the present invention manufactures algae farming ropes only with natural fiber material that does not contaminate the sea at all, but has good adhesion to seaweeds, but a rope made by twisting coconut fiber, that is, coconut fiber. A core rope is formed, and a covering rope is formed around the outer surface of the core rope to compensate for the insufficient tensile strength of the core rope without disturbing the adhesion of the seaweed. He developed a seaweed farming rope made of paper mulberry fiber and has been filed for 10-2009-0098299.

However, as a result of producing the above-mentioned seaweed farming rope and attaching the seed padding to the farming test, the farming rope sinks in the sea water, and eventually, the seaweed seedlings that have not been sunlit are dead, and even if they lived barely It has a disadvantage that growth is not smooth. Eventually, the inventors realized that the culture of the algae is almost impossible with the culture rope developed by the present inventors, and efforts have been made to find a cause for the culture rope to sink.

As a result, the conventional aquaculture rope produced by the present inventors uses a rope made by twisting a rope made of 10-30% by weight of palm fiber, that is, coconut fiber, with a core rope, and a coated rope with a rope of 3-5. It is made by twisting ropes made of strands of mulberry fibers, so that when the seaweed culture rope is wetted with water, the mulberry fibers will absorb a considerable amount of water and eventually the specific gravity of the whole rope will be higher than the water. I found myself sitting.

Coconut fiber, on the other hand, is a material that hardly absorbs water, so it is found that even if it is wet, water absorption is hardly achieved and eventually maintains a specific gravity lower than water.

Therefore, the present invention is to produce a seaweed farming rope by twisting the rope made of coconut fiber and the mulberry fiber, so that the specific gravity is lower than the water so that the rope is soaked in water so as not to sink. The proportion of coconut fiber is 70 to 90% by weight of the total ratio, the ratio of the mulberry fiber is composed of 10 to 30% by weight by weight ratio until the seed grows grow the rope for the culture of the present invention does not sink to the sea always It is characterized in that to maintain the state.

At this time, the mulberry fiber is characterized in that it can be replaced with a fiber of a strong material and hemp fiber.

In addition, the rope rope 100 of the present invention is formed of a core rope 120 positioned in the center of the rope and a covering rope 110 that surrounds the outer surface of the core rope 120 roundly, but the core rope 120 is To use the fiber of any one of the strong strength of the mulberry fibers or hemp fibers that can compensate for the lack of tensile strength of the core rope 120, the coating rope 110 uses a coconut fiber that has good adhesion of algae but weak tensile force. It features.

As described above, the present invention produces a seaweed farming rope by using the strong tensile force of the mulberry fiber or hemp fiber as a rope to compensate for the weak tensile force of the coconut fiber and coconut fiber to facilitate the attachment of seaweed seed and root, wherein The ratio of the coconut fiber in the weight ratio of the rope is at least 70% to 90% or less, so that the rope does not sink even when wet.

As described above, the rope of the present invention maintains a floating state on the surface at the time of hatching of the seed so that the sun can be sunk for a long time, so that the hatching probability of the seed is increased, the root lubrication is good, and the growth efficiency of the seaweed is improved.

In addition, the present invention can lighten the weight of the overall rope by using light, soft and tough mulberry fibers and hemp fibers, and also help the growth of algae by the composition of pectin, lignin, cellulose, etc. It can be.

In addition, the present invention is a very useful invention that can provide aquaculture farmers with a seaweed culture rope that does not contaminate the sea at all, even if lost by manufacturing both the core rope and the coating rope made of natural fiber material.

1 is a reference diagram according to an embodiment of the present invention
2 is a reference diagram according to another embodiment of the present invention
3 is a reference diagram according to another embodiment of the present invention

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in Fig. 1 to Fig. 3, the seaweed farming rope 100 using natural fibers according to the present invention is a rope made of coconut fiber and a seaweed farming rope made of mulberry fiber. To prepare, but the rope is soaked in water to make the specific gravity lower than the water so as not to sink, the proportion of the coconut fiber is 70 to 90% by weight of the total ratio, the ratio of the mulberry fiber 10 to 30% by weight It consists of%. Therefore, the rope 100 of the present invention is to maintain the state of the floating rope always does not sink in the sea until the seed grows.

In the present invention, the ratio of coconut fiber and mulberry fiber is preferably 7 to 9: 1 to 3 in weight ratio, and most preferably, the ratio of coconut fiber and mulberry fiber is 8: 2. At this time, if the proportion of the coconut fiber is less than 70% by weight of the total ratio, when the culture rope 100 is soaked in water, the specific gravity becomes higher than water and sinks. to be.

In addition, when the ratio of the mulberry fiber is less than 10% by weight of the total ratio is lowered the tensile force of the aquaculture rope 100, if more than 30% by weight when wetted with water because the specific gravity is higher than water because it has a disadvantage that sinks to be.

In the present invention, it is natural that the mulberry fiber may be used instead of hemp fiber and fiber of strong tensile strength.

In addition, the rope rope 100 of the present invention is formed of a core rope 120 positioned in the center of the rope and a covering rope 110 that surrounds the outer surface of the core rope 120 roundly, but the core rope 120 is To use the fiber of any one of the strong strength of the mulberry fibers or hemp fibers to compensate for the lack of tensile strength of the core rope 120, the coating rope 110 uses a coconut fiber that has good adhesion of seaweed but weak tensile force desirable.

The reason for using the coconut fiber as the material of the coating rope 110 is that the coconut fiber is a very hard fiber of rigid and raised, brushed, and does not rot well in seawater, so it is very easy to attach algae seeds and roots, thereby This is because growth is easy and survival rate is very high.

However, since the length of the coconut fiber strand is short to 20 ~ 30cm, the rope made of this has a weak tensile strength because the degree of twisting and binding of the strand and the strand is not strong.

Moreover, as the algae rooted between the coconut fiber strands grows more and more, the roots become thicker and digging into the strands of the coconut fiber rope, the tensile strength of the coconut fiber rope becomes more vulnerable, and even the rope is broken or the rope is broken. do.

Therefore, it requires a separate means for the insufficient tensile force of the core rope 120, in the present invention to facilitate the attachment of seaweed species and roots while supplementing the tensile force of the core rope 120 for this purpose, Among the natural fiber materials that do not pollute the sea, the mulberry fiber and hemp fiber have a length of 2 ~ 2.5m, soft and flat, and good tensile strength to compensate for the insufficient tensile strength of coconut fiber.

In other words, mulberry fibers and hemp fibers are made of twisted strands of mulberry fiber having a length of 2 ~ 2.5m, which is stronger in tension than coconut fiber ropes made of twisted fiber strands of 20 ~ 30cm in length. Regardless of the growth of algae, it does not break easily.

In addition, the mulberry and hemp is composed of many thin and soft fiber strands, which can protect the seaweed seedlings when they are rooted in the rope, and do not interfere with the growth, thus greatly aiding the growth of the seaweeds.

In particular, the mulberry fiber is composed of 70% to 85% holocellulose, 7% to 10% extract, 7% to 10% pectin, 3% to 5% lignin, 2% to 5% ash, and the composition such as pectin and lignin is fiber To serve as a fiber binding material to bind the fiber and the cellulose has an effect of antimicrobial and far-infrared radiation, which is a great help for algae farming.

Hemp fiber is also known as hemp, a monocotyledonous perennial, a type of perennial perennial herb. Cellulose and wood components are densely formed vertically and have strong tensile force.

In another aspect, the present invention is to produce a rope by twisting the mulberry fibers and hemp fibers, to produce a rope by twisting the coconut fiber, it is without the core rope 120 and 1 to 3 strands of the mulberry fibers and hemp fiber ropes and coconut fiber ropes 7 ~ It can also be prepared by twisting 9 strands.

At this time, the rope weight of each strand of the mulberry fiber and hemp fiber rope and coconut fiber rope is formed the same.

At this time, the mulberry fiber, hemp fiber rope, coconut fiber rope twists nine single yarns to form a first plywood and twists the first plywood into three strands to form a second plywood. The second plywood may then be twisted back into three to five strands.

This is the configuration necessary to control the thickness of the present invention seaweed culture rope 100 to create the most desirable seaweed culture environment, that is, the tensile strength of the rope and the growth environment of seaweed.

As described above, the seaweed culture rope 100 of the present invention is made of all natural fibers, so that the seaweeds are rotted even when they are lost during seaweed farming, thus preventing sea pollution. It is possible to significantly reduce the weight of fishermen, thus reducing the labor force of fishermen.

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto, and the technical spirit of the present invention and a patent will be described below by those skilled in the art to which the present invention pertains. Various modifications and variations will be possible within the scope of the claims.

100: the invention rope
110: sheathed rope
120: core rope

Claims (3)

In the seaweed aquaculture rope using natural fiber,
To produce a seaweed farming rope by twisting a rope made of coconut fiber and a mulberry fiber, the ratio of coconut fiber to prevent the rope from sinking even if the rope is wetted with water. Silver is 70 to 90% by weight of the total ratio, the ratio of the mulberry fiber is a seaweed culture rope using natural fibers, characterized in that consisting of 10 to 30% by weight.
According to claim 1, Seaweed culture rope using natural fibers, characterized in that instead of hemp fiber instead of hemp fiber.
According to claim 1, wherein the aquaculture rope is formed of a core rope 120 located in the center of the rope and the coating rope 110 to surround the outer surface of the core rope 120, the core rope 120 ) Uses any one of the strong tensile force of the mulberry fibers or hemp fibers that can compensate for the insufficient tensile strength of the core rope 120, the coating rope 110 is a coconut fiber that has good adhesion of seaweed but weak tensile force Seaweed culture rope using natural fibers, characterized in that used.

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