KR101415493B1 - Underwater facilities for seaweed forest. - Google Patents

Abstract

Existing bottom lines have been constructed by using seed ropes between fish shelters in order to improve algal productivity and restore fish resources in the area of the sea where albinism occurs. The bottom lines are difficult to be constructed and dismantled and should be replaced every year and connected between the fish shelters, resulting in a significant hindrance to a seaweed forest creation and administration work. As a method for restoring an algal bed for a seaweed forest, underwater bottom line facility is provided. The underwater bottom line facility standardizes underwater bottom lines by using floating units, panels, biners, etc. such that the underwater bottom lines can be semipermanently maintained. The underwater bottom line facility includes a fixing member with setting force at the bottom. A connecting ring is formed on an upper part of the fixing member such that a main line is connected to the connecting ring. An underwater floating unit is connected to the top of the main line. A connecting ring is formed on a portion of the main line such that a seaweed cultivation line is coupled to the connecting ring. A plurality of underwater bottom line facilities can be arranged to create a seaweed forest to form a group, thereby being utilized as a seaweed forest creation structure of various purposes including a seafood habitation, a seed bank feeder, etc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underwater facility for seaweed,

More particularly, the present invention relates to a low-stagnation sea forest facility installed in seawater, and more particularly, to a lower structure having a fixed member having a sedimentation force, a connection ring formed on the upper portion of the fixed member, And a connecting link is formed at a part of the corrugated line so that a seaweed positive line can be joined.

The plants that live in the sea are called algae, and they are classified into phytoplankton which lives in the floating state and large algae that live in a stable state. Only the latter is called seaweed. Seaweeds are classified as algae, algae, red flora, and seagrass species. These algae proliferate by the method of asexual reproduction by spore and the method of sexual reproduction by spouse. Spore formation is called sporophyte, and the object forming spouse is called gamot.

Seaweed culture is usually carried out by placing a foot or a support neck in a certain area on the sea and porting it to a foot or a support tree attached to a marine farm. The way to cultivate has been done.

Especially, the substrate for seaweed harvesting which is used in the seedling stage to obtain each spore or migrant from mature seaweed is mainly dipped in a water tank containing seawater in which each spore or hostile is discharged, the rope or fiber yarn wound around the rotary casting frame, And the method of attaching the host of the seaweed has been the main method.

On the other hand, "sea forest" refers to the formation of tropical forests, where marine algae reproduce vastly in the seawater, forming forests. Seaweeds that form the sea bed are large brown algae. They proliferate and multiply in a unique marine environment that receives unlimited supply of nutrients, occupying a large area of the sea. These large groups compete intensely with two or three species. Among these species, many kinds of seaweeds are naturally grown and are provided as spawning places for fish.

In particular, the seabirds of the East Sea of the Dokdo region are dense sea breams with rhododendrons, rhododendrons, and seaweeds. In other words, rhubarb and rhinoceros are ecologically climaxic and dominant dominant species. This area shows that this area is the best place to study. In addition to rhubarb and rhubarb, it has a large biomass and broad-leaved brown algae, sea bass, seaweed, and kelp. In the Dokdo area, there is a large amount of capillary currents floating according to the currents of the current, and the saury shrubs lay eggs on the foliage of the mullet.

However, except for the Dokdo area, the coastal area of Korea has undergone a number of complex causes, such as the disappearance of the sea bed, and the rocky algae, which are hard red algae like cement, cover the rock. It is difficult and time-consuming to restore the disk once it has progressed. Recently, researches on causes and countermeasures of coastal waters have been carried out, but systematic studies have not been conducted through objective selection procedures for restoration of marine forests.

Therefore, in the present invention, improvement of seaweed productivity and recovering of fish stocks in the sea area where the seaweed is occurred, and the low consecutive seaweed rope provided between the fishing reef and the fishing rod in the past requires replacement of the fishing line every year, This is a cumbersome problem. Therefore, it is necessary to develop and distribute low-water underwater facilities that can be maintained semi-permanently by using rich, panel, visa, etc. as a way of restoring the coastal area to sea forest seawall.

The Korean Patent Registration No. 20-0451216, which is related to the seaweed harvesting, discloses that the structure of the through hole of the upper body is composed of a through hole forming an inclined surface, and that the diameter of the protruding portion is gradually reduced to form a step Since the upper frame to be fixed to the lower frame is firmly fixed, the frame is kept in the shape of the frame so that the upper frame and the lower frame, which are excellent in durability and are prevented from being scattered, are provided. Discloses the construction of a seaweed cultivation frame that combines sieves. Korean Patent Laid-Open Publication No. 10-1999-0040837 relates to a description of seaweed used mainly for the production of seaweeds such as seaweed, sea tangle or seaweed, or seaweed, and in the construction of the seaweed using Binilon spinning, A twisted twisted yarn twisted in multiple strands around a straight line is spirally wound around the twisted yarn, and twisted tightly twisted in a direction opposite to the winding direction of the twisted yarn is wound diagonally to fasten the twisted yarn , The margin is fixed by the fasteners of the fasteners so that the margin that is created at this time becomes the wing parts which are known to you, so that the spore gaps such as seaweed and kelp, A structure in which the locus of the locus of the distributor or the locus of the divided spore can be easily reproduced There. Korean Patent No. 10-1013888 relates to a rope for culturing algae using natural fibers, wherein a rope made of coconut fiber and a rope made of mulberry fiber are twisted to produce rope for culturing algae, The proportion of the coconut fiber is 70 to 90% by weight based on the total weight of the fiber, and the proportion of the fiberwood fiber is 10 to 30% by weight based on the weight of the fiber. A rope for seaweed culture is disclosed. This prior invention relates to the description of a zodiac for exploiting seaweeds. The invention aims at providing a semi-permanent sustainability of the underwater low-seas aimed at the present invention by using a rich, panel, visa, etc., The present invention differs from the technical features of the present invention in that it is designed so as to be commonly used.

In order to improve the seaweed productivity in the sea area where the seawater is produced, and to restore the fish stocks, it is conventionally necessary to use a nodule rope between the fishing rod and the fishing rod, The purpose of this study is to provide a water-holding low-streak facility that can maintain semi-permanent water retention by using rich, panel, visa, etc. as part of a method for restoring the coastal zone to sea forest seawall due to obstacle.

In order to solve the above-mentioned problems, the present invention relates to a low-stagnation sea forest facility installed in a seawall, comprising a fixing member having a sedimentation force at its lower portion and a connecting ring formed at an upper portion of the fixing member, The uppermost part is connected to the richest part of the water, and a part of the corrugated line is formed with a connecting ring to which the seaweed amphibian can be joined.

In addition, the seaweed positive line formed in the connection loop is composed of a main body portion and a connection portion having a predetermined length, and one end of the connection portion is formed of any one of a "rod" type rod, a snap ring, a shackle, and an ice ply knot, The main body of the string is any one selected from a polymer compound, a natural fiber, and a synthetic fiber material. In the main body portion, a seaweed mosquito, a seaweed phloem, or a sporophyll, And the like are attached.

In another embodiment of the present invention, a low-stagnation sea forest facility installed in a seawall is composed of a fixed member having a sedimentation force at its lower portion, a connection ring is formed at an upper portion of the fixed member, And at least one underwater low-loss facility having a connection link for installing a seaweed-positive line is installed at a predetermined interval in a part of the corrugated line, and the connection link between the underwater low-loss facility and another underwater low- And a connection part of a seaweed amphibious bar having a predetermined length is coupled to the bottom of the sea.

The underwater low-strenght facility of the present invention can be utilized as a sea forest formation structure for various purposes such as a seafood bank, a seed bank feeding ground, etc., by forming a plurality of watercolors to form a sea forest. In addition, the facility of the present invention can be used semi-permanently, fixing all parts such as a middle rope loop, a lower anchor connection ring, etc. using a aluminum panel at the bottom of the boiler and assembling them into a standardized facility. By forming such facilities, it is possible to construct seaweeds which are progressed through the rusting of the shrubs to form sea forests, which can contribute to the restoration of the fishery environment through food chain formation and contribute greatly to the future nationalization of sea ranching.

FIG. 1 is a view showing a low-stagnation sea forest facility installed in a seawall according to the present invention.
FIG. 2 is a diagram showing a configuration in which a plurality of low-reaching sea forest facilities are installed.
FIG. 3 is an enlarged view of the connection to the connecting portion of the low-lying continuous sea forest facility.
Figure 4 is an enlarged view of yet another form of connection of a low-streak sea forest facility.
Figures 5 and 6 illustrate the shape of the corrugated lines connected to the connection points of the low succession sea forest facility.
FIG. 7 is a view showing a buoy in a corrugated line connecting the low-lying continuous sea forest facility.
Figure 8 shows the shape of the ocean forest using low water-winning facilities

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a view showing a low-stagnation sea forest facility installed in a seawall according to the present invention. The term "succession" refers to a fishing line installed on the sea floor of a sea. It means that a plurality of fishing lines are formed on one line. However, as in the present invention, one low- The term "sea" is used as a general term in the field of seaweed facilities by borrowing the term of the phrase.

The low-stagnation sea forest facility installed in the seabed is composed of a fixed member having a sedimentation force at its lower part, a connection ring is formed at the upper part of the fixed member, a corrugated line is connected, a richwater is connected to the uppermost part of the corrugated line, Is characterized in that a connection loop is formed in which a seaweed amphorae can be joined.

The low succession is made from the bottom to the connection ring where the seaweed positive line is fixed, and the length from the connection ring to the underwater side is short. In the present invention, the fixing member may be formed to have a length of about 1.5 m from the coupling ring, and the coupling ring may be formed to have a length of 0.5 to 1 m from the upper end.

The fixing member should be made of a material having a certain sedimentation strength, and anchor, concrete, iron or a stone contained in a mesh may be used. After the fixing member is fixed to a certain part of the sea floor, it is possible to connect the corrugation through the connection ring formed in the upper part. The connection of the corrugated lines can be connected through the shackle connection, or the corrugated line can be passed through the connection ring of the fixing member by using a crimping connection member made of aluminum, It is possible to connect and fix it.

The upper part of the corrugated line is connected to the rich part with a constant buoyancy so that the corrugated lines can support vertically. In addition, the corrugated lines can be connected to the seaweed positive line. In this case, the buoyancy serves to support the tensile force of the positive string by a constant force. Therefore, when a plurality of facilities are formed, a buoyancy having a large buoyancy may be installed in the facility at one side, It is necessary to fix it.

FIG. 2 is a diagram showing a configuration in which a plurality of low-reaching sea forest facilities are installed. The seaweed lining formed in the connecting loop is composed of a body portion having a predetermined length and a connecting portion, and one end of the connecting portion is made of any one of a "rod" type rod, a snap ring, a shackle and an ice ply knot. In addition, the main part of the positive string is any one selected from a polymer compound, a natural fiber, and a synthetic fiber material. In the main body part, any one of seaweeds selected from seaweeds of seaweed, gametophytes, sporophytes, Can be attached. The seaweed aquifers having a certain length can be formed to have a length corresponding to the distance between the low consecutive facilities of 5 to 6 m.

If the corrugated lines are not divided into regular lengths and are fixed to the low elongation facility as one long line, shackles or round rings, which can be fixed to the corrugations at regular intervals and spaced at regular intervals, And fixing the member having the eye shape of the eyeglass frame to the connection link of the low-successive facility formed at a predetermined distance. The seaweeds having a length of 1 line are connected to 10 to 15 low-successive facilities, so that positive lines can be formed at a distance interval of 50 to 60 m.

FIG. 3 is an enlarged view of the connection to the connecting portion of the low-lying continuous sea forest facility. A positive string having a main body portion and a connecting portion which are spaced apart from each other is connected and fixed to the connecting ring formed on the mother string. Fixing of the positive line can connect multiple positive lines by inserting the rod into the ice flies knot which intersects the ice flies knot formed at both ends of the positive line by way of the link loop.

Another way to fix the line is by passing the ice ply made on either side of the positive line through the round ring part of the snap foot to create a knot that secures the snap to the ice ply so that the ice ply eye and snap It is possible to connect the positive line with the fixed snap and the positive line of the ice flies with the snap, and also the positive line and the support line can also be connected and detached simply by snapping. FIG. 4 is an enlarged view of another form connected to the connecting portion of the low-lying sea forest facility.

Figures 5 and 6 illustrate the shape of the corrugated lines connected to the connection points of the low succession sea forest facility. In order to grind seaweed to be attached to the positive string, when the string of the string is put into the tank of the seaweed gametophyte or the host of the seaweed, the seaweed spore colonizer is reproduced by the gap of the seaweed. It is transplanted into the sea water, and when the leaf is grown, it is transplanted into the positive line. It is also possible to locate the ambulatory facility using corrugated lines, and to extend the corrugated lines along the corrugated lines through the connection rings formed in the ambulatory facilities.

Seaweed progeny can be constructed by cutting seaweeds or engraftments, which have been grown in marine organisms or seaweeds, into seawater at a certain interval after cutting the seaweeds, or by inserting each piece of seaweed. The length of the positive string is usually determined by the installation spacing of the facility, which may be designed in consideration of the installation spacing of the facility and typically comprised between 5 and 7 m.

If the length of the positive line is long or the installation interval of the facility is wide, it may be sagged downward due to the weight of the algae growing from the positive line. In addition, the seaweed bands can be drained downward as the seaweed grows, as the underwater load increases and a constant load is applied to the bows. Therefore, when multiple facilities are installed, You need to install it. FIG. 7 is a view showing a buoy in a corrugated line connecting the low-lying continuous sea forest facility.

Another embodiment of the present invention is a low-stagnation sea forest facility installed in a seawall, comprising a fixing member having a sedimentation force at its lower portion, a connecting ring formed at an upper portion of the fixing member, And at least one underwater low-strenghtening facility having a connecting link for installing a seaweed amber line is installed at a predetermined interval in a part of the corrugated line, and the connecting link of the underwater low-strenght facility and another low- Is connected to the connecting portion of the seaweed amphibian having a certain length.

It is a time for installing positive straps attached with seaweed seedling to the grafted fishing ground by fixing the positive string between the support string and the square frame in the form of a fixing device which fixes a fixed length of rod through the ice ply knot formed at both ends of the positive string. Can be shortened. In addition, the gametophyte, sporophyte, and host of the algae implanted in the positive line having a certain length can be positive algae species such as seaweed, kelp, seaweed, dandelion, cucumber, myphi, Figure 8 shows the shape of the ocean forest using low water-winning facilities

In order to construct such a sea forest, the method of installation of low-water continuous facilities is to check the location of rocks in the sea and select a suitable sea area as the installation position of low-successive facilities. Next, mark the location on the seabed where the fixed member of low succession will be installed by the indicator or underwater paint, and move the fixed member to the position while confirming the place.

After confirming the installation location and arranging the fixing members so that the fixed members are arranged in a regular cluster shape at a predetermined interval in a horizontal direction with the low winning facilities, Connect. If the corrugated line is a seaweed positive line, it may be added to prevent it from falling down due to its growth. If the corrugated line is not a seaweed line, And connecting the seawater to the seaweed line.

Improvement of seaweed productivity and recovery of fishery resources in the sea area where the seaweed is occurred and the low succession which is conventionally used between the fishing reef and the fishing rod by using the nursery rope are difficult to install and dismantle and should be replaced every year, As a way to restore the seaside forest to sea, it has been developed a water low-streak facility that can be used semi-permanently by using rich, panel, visa and so on. As the low-loss facilities of the present invention are installed on the sea floor, the seaweed grows in the seaweed-growing line, and the seaweed can be formed into the sea forest, thereby contributing to the restoration of the fishery environment through the food chain. It can greatly contribute to the national policy of sea ranching.

≪ Brief Description of Drawings &

Body part: 11 "a" shaped rod rod: 12

Ice Flies Knot: 31

Claims (5)

In the low-reaching sea forest facility installed in the seabed,
A connecting member is formed at the upper part of the fixing member and a connecting line is connected to the upper part of the fixing member and a rich part is connected to the upper part of the fixing line, One or more underwater low-loss facilities are installed at regular intervals,
At least one line of seaweed is connected between the connection line of the underwater low-rise facility and the connection line of another underwater low-rise facility; The seaweed lining is composed of a main body portion and a connecting portion having a predetermined length, and both ends of the connecting portion are formed by combining and combining a seaweed lining consisting of a combination of "a" rod and ice ply knot;
Characterized in that the body of the seaweed amphorae is made of any one material selected from the group consisting of a polymer compound, a natural fiber and a synthetic fiber, to which a seaweed seaweed, Low underwater facilities for sea forest formation delete delete delete delete

Images