KR101937093B1 - Underwater facilities for seaweed forest. - Google Patents

Abstract

The present invention relates to a device for restoring natural bedrock marine plants ground and to a restoration method thereof. A bedrock fixing frame which is horizontally installed on the other side of underwater bedrock surface and a wire fixing frame are vertically connected to one end of the bedrock fixing frame, and thus a ′ㄴ′ shaped fixing plate having a ′ㄴ′ shape is spaced at regular intervals and one or more ′ㄴ′ shaped fixing plates are installed horizontally or vertically. A wire penetrates the wire fixing frame of the ′ㄴ′ shaped fixing plate and one or more ′ㄴ′ shaped fixing plates are connected thereto, and thus a weft rope, to which the seaweed seedling has been implanted, is routed surrounding the side surface of the wire.

Description

{Underwater facilities for seaweed forest.}

It provides a low-hanging facility for seaweed grafting that can be used permanently on the sea floor landforms such as bedrock where it is difficult to transplant seaweeds. Specifically, a fixed plate having a predetermined height and area is installed at a certain interval on a rock bed of a seabed, a wire rope is connected between the fixed plates, and an engaging rope implanted with seed for transferring seaweed is wire- ≪ / RTI >

The 'sea forest' is similar to the tropical jungle, where the algae breed in the ocean to form a forest. The composition of the sea forest is obtained by marine environment in which many algae with large biomass are explosively multiplying and occupying a part of the sea area in marine environment that supplies nutrients unlimitedly. Sea forests, which form the basis of submarine ecosystems, play an important role in feeding habitats and food to habitats in the location of producers, mainly algae and seaweeds.

At this time, seaweed refers to algae in the sea as a whole. It does not distinguish between roots, stems, and leaves. It propagates by spores and fixes the body to rocks by a holdfast that looks like roots and acts as photosynthesis in the thighs . Seaweeds can be divided into green algae, brown algae, and red algae, and include seaweed, seaweed, kelp, kim, paraya, and umbrella.

 The function of the sea forest is to increase the supply of algae. Seaweeds are used in various fields such as health foods containing vitamins and minerals or useful functional materials such as fucoidan, cinnamic acid, alginic acid, and sunscreen, or as a clean bio energy source. The increase in the supply of seaweeds can lead to the development of technology related to seaweed utilization. In addition, it has the effect of providing breeding, scattering, daycare, and growing fields as a food for aquatic organisms, and reducing greenhouse gases by absorbing carbon dioxide in the water and the atmosphere.

However, recently, seaweeds that grew in the coastal rock area have disappeared and have been replaced by algae-free lime algae. The rocky areas have become white, and the seaweeds have been devastated. .

Thickness was first discovered at the end of the 1970s, and its frequency has increased since then. Although the exact cause has not been clarified, it is estimated that the temperature rise due to global warming, acidification of the ocean, and inflow of pollutants into the land.

The following is the process in which the concussion phenomenon occurs. The increase in water temperature causes a change in the habitat environment in the sea and the propagation of red algae with calcium carbonate such as coral horses. These calcareous algae are more likely to flourish as the lime in the seawater concentrates and seeps out due to the pollutant discharge from the land containing phosphoric acid, and it spreads in the sea and dies, making the rocky area white and devastating seaweed habitat.

As a result, loss of seaweed resources due to loss of attachment of many edible meals such as seaweed, kelp, mosquito repellent, and kotatsu decreases the income of fishermen. Decrease of seaweed resources can cause food shortage of breakfast fishes such as abalone, sea urchin, and sea turtle such as seabream, seabream, seaweed, and rodent which are feeding on them, and loss of habitat may lead to decrease of fish resources.

Recently, rapid destruction of ecosystems due to rapid industrialization and indiscriminate harvesting of natural resources has threatened coastal ecosystems due to dredging work, indiscriminate harvesting and overfishing as well as on land, Forests are also rapidly disappearing.

Therefore, there is a method of introducing seedling, imitation method, production and input of coastal reef and seaweed, expansion of seaweed attachment area, fertilization to nutrient deficient fisheries,

The method for seeding the seedlings is to seed the seedlings of large brown algae such as mosquito repellent, matsutake mushroom, mackerel, and kelp into grapevines or rocks and cement blocks, grow them into leaves and put them into a shoal seaweed field. And then placed in spore webs and immobilized on the reef in the water to induce spore release.

The seedling input method and the imitation insertion method are often performed together with the input of the coastal reptile and the seaweed starter. In this way, the domestic registered utility model publication No. 20-0477518 describes a cross-shaped pre- Discloses an underwater low-streak facility for the formation of a sea forest and a method for preparing a sea forest using the same. However, the preceding documents are difficult to dispose of facilities after long-term installation and use. Especially, in the case of the low winning facilities, the boiler and the corrugated lines are deployed vertically, and the durability is poor, making it impossible to install for a long time. As a result, it is difficult to collect rich people and it becomes waste. .

Korean Registered Utility Model No. 20-0477518 discloses a crisscrosser of the sea forest with four wings, wherein each of the wings comprises a seaweed seedling; A mesh frame to which the seaweed seedlings are bound; A seaweed seedling built-in frame in which the mesh frame is embedded; A fixing groove into which the seaweed seedling inner frame is embedded, a water hole through which seawater flows in the upper surface of the seaweed seedling, a fixing member for fixing the inner frame, A fixed anchor bolt for fixing the fixture; Wherein the mesh frame to which the seaweed seedling is bound is composed of a mesh and the root of the seaweed seedling is placed on the mesh, It is about the cruciferous moraines that make up the sea forests that make up. Korean Patent Registration No. 10-1427538 discloses a combination of a vertical member and an upper and a lower horizontal member to form an artificial fish group on the coastal seabed so that aquatic plants such as seaweed can be naturally and artificially coalesced and protected in a short time. And a body is divided into three equal parts, a net is formed vertically, a leg is formed at a corner where the horizontal member and the vertical member meet, and a leg is formed to maintain the body of the hexahedron at a predetermined height, A supporting surface having a floor fixing hole is formed in the bottom floor, a connecting ring for connecting scattering candles is formed on the upper surface of the upper horizontal member, a corrugated wire is connected to the connecting collar, and a rich water is connected to the top of the corrugation , The corrugated line is formed by connecting a plurality of seaweed-positive lines to a part of the corrugated line, For columns and nursery discloses About Associates. In Korean Patent Registration No. 10-1415493, it is difficult to improve the productivity of seaweed in the sea area where the seaweed occurs, and to recover the fish stocks by using the nodule rope between the fish catch and the fishing rod. And it is connected between the fishing grounds. Therefore, as a method for restoring the sea forest seawall as a result of causing considerable obstacles to the composition management work, As a winning facility, the lower part is composed of a fixing member having a sedimentation force. A connection ring is formed on the upper part of the fixing member to connect the corrugation lines. The upper part of the corrugation line is connected to the rich water. It is possible to construct a sea forest by providing a low-water And a method of forming a sea forest using the same as an underwater low-rise facility for forming a sea forest which can be utilized as a sea forest formation structure for various uses such as a seafood bank and a seed bank feeding ground by forming a community. In Korean Patent No. 10-1803773, a handle is provided at one side with a predetermined diameter so as to suck various breakfast animals such as sea urchins, small horses, turtles, An air supply unit for supplying high pressure air in a suction direction so that various kinds of breakfast animals can be sucked through the passage of the main body, And a collecting net connected to the main body through a flexible connection pipe to be flexible in movement and selectively separated from the main body when the main body is in contact with the main body, And a remedy device.

Unlike a conventional seaweed low succession, which is installed at a certain depth to provide a certain depth of water, the present invention provides seaweeds on the sea bed by installing a fixed height plate on the undersurface of the rock bed, It is possible to develop infrastructures for transplantation, to use the device facilities permanently, to prevent the feeding animals from feeding on young seaweeds at the pomegranate stage, The purpose is to provide.

The present invention relates to a rocking chair comprising: a rocking arm fixed horizontally to a sea bed; a rocking frame fixed at one end of the rocking rocking frame to a wire fixing frame so as to form a " Wherein the at least one fixing plate is spaced apart at regular intervals and installed in at least one of a horizontal direction and a vertical direction; The wire is passed through the wire fixing frame of the B-type fixing plate to connect one or more B-type fixing plates; There is provided a natural rock salt recovery apparatus in which an engaging rope implanted with a seaweed seedling is installed around the side of the wire.

In the present invention, a wire through hole may be provided on a side surface of the wire fixing frame of the C-shaped fixing plate, the wire may be penetrated and fixed by a wire fastening device.

According to another embodiment of the present invention, there is provided a rocking chair comprising: a rocking arm fixed horizontally to a sea bed; a rocking frame fixed to the rocking frame at a distal end of the rocking rocking frame; Wherein the at least one fixing plate is spaced apart at regular intervals and installed in at least one of the horizontal and vertical directions; Wherein the wire fixing frame of the B-type fixing plate is provided with a transverse wire penetration portion and a longitudinal heat wire penetration portion upwardly and downwardly; Wherein the wire is passed through in the transverse direction and the longitudinal direction to connect one or more C-shaped fixing plates to the transverse wire penetration part and the longitudinal heat wire penetration part of the C-shaped fixing plate; And an engraved rope to which the seaweed seedling has been implanted may be laid around the side of the wire.

According to still another embodiment of the present invention, there is provided a method for selecting a seaweed rock bed (a) for searching a natural rocky area of a seabed to divide a composition area, and removing foreign matter and foreign matter adhering to the rock surface of the partitioned area; (B) a step of installing a Bent fixturing plate in which at least one Bent fixturing plate is installed in the rocky area selected in the step (A) at a predetermined interval in the horizontal or vertical direction; (C) a wire installation step of fixing the wire to the B-fixed plate by fixing it; And a step of installing an engaging rope (step (d)) in which a seaweed spore is implanted in the rope and an engaging rope is installed along the side of the wire in the step (c).

It is possible to develop the infrastructure to transplant seaweeds in the horizontal and vertical directions on the sea bed rock by using the bamboo fixed plate on the undersea topography such as rocks which are difficult to transplant seaweeds. Unlike the conventional seaweed low winning stones, , And it is possible not only to prevent the feeding animals from feeding on young algae of the pomegranate stage, but also to have a high concentration of the seaweed, so that a higher density of sea grass can be formed.

1 is a perspective view of a natural rock salt recovery facility of the present invention.
Fig. 2 shows a BJT fixing plate of the present invention.
3 shows a wire cross-sectional view of the present invention.
Fig. 4 shows an embodiment of the present invention.
Figure 5 shows a natural rock salt recovery facility equipped with a bounce fixture embodiment.
6 shows a spore emitting cage of the present invention.
7 shows a schematic diagram of the composition method of the present invention.
Fig. 8 shows a photograph of a real plate of the present invention.
9 is a schematic view of a rock bed installed with a natural rock salt recovery facility of the present invention.

The natural rock salt recovery facility and method of the present invention will be described with reference to the accompanying drawings. 1 is a perspective view of a natural rock salt recovery facility of the present invention. In the natural rock salt seaweed restoration facility of the present invention, a rocking frame 10, which is horizontally installed on the underside of the sea, and a wire fixing frame 20 are connected vertically to one end of the rocking frame, (100); Wherein the at least one fixing plate is spaced apart at regular intervals and installed in at least one of the horizontal and vertical directions; The wire 200 is passed through the wire fixing frame of the B-type fixing plate to connect one or more B-type fixing plates. And an engaging rope 300 to which a seaweed seedling is implanted may be formed so as to surround the side of the wire.

The present invention is characterized in that, in contrast to conventional low water consecutive aquaplanes which are installed using a rich or moxibustion in order to fix a low-trailing water facility to a predetermined water position, the present invention uses a fixed plate for fixing the low- By establishing an installation base at intervals, it is possible to construct a low water-winning facility without using the rich.

The seabed bed according to the present invention generally refers to a region where a natural rock is formed. Preferably, it refers to a place with a small number of attached organisms such as barnacles, oysters, mediterranean mussels, etc., which are removed from the sea bed where the natural stone is installed.

Generally, seaweeds that form the sea - bed in the coastal waters of Korea are large brown algae. Among them, brown algae such as seaweed or mites are released at the reproductive stage and float in the sea water. However, the reproductive function is not a spore but a spherical fertilized egg, and the fertilized eggs fall from the foliage in the seawater to germinate on the rocky substrate. Therefore, the reproductive ability of seedlings can only be within a certain range.

Seaweed farming using large brown algae (mulberry, mulberry, etc.) is the most effective way to produce artificial seedlings indoors and transplant them to the substrate. The cap half glue applicator is in the form of a triangular pyramid, so that the attachment surface of the substrate is wide and has strong adhesive ability. Therefore, as a seaweed artificial seed substrate, a flat, hard rock bed is joined.

Fig. 2 shows a BJT fixing plate of the present invention. The B-type fastening plate of the present invention has a plate-like rock-shaped fastening frame of a certain thickness and a distal end portion of a wire fixing frame connected to each other to form a curved shape at the right side. The material is corrosion-resistant steel like stainless steel and it is suitable to be installed in seawater for a long time as well as being stable in seabed so that it can prevent corrosion and seawater with excellent durability.

A transverse row wire through hole 20a is formed on an outer side surface of the wire fixing frame 20. [ The wire penetrates the wire through hole (21) and is connected to at least one wire fixing frame. The wire penetrating hole is provided with a wire fastening device so that the wire is passed through at least one wire through hole and fixed, so that the wire is developed with a certain amount of tension. Since the wire according to the present invention has excellent durability and hardly generates corrosion, it is possible to maintain a semi-permanent state by a single installation, thereby reducing the labor or cost of replacing the facility and reducing the occurrence of disused seabed facilities. Preferably, a thread of a female screw may be formed in the transverse thread through-hole. In this case, a screw thread type thread is formed at one end of the penetrating wire, so that the wire and the wire fixing frame can be fixed through the screw hole in the through hole.

The rock fixing frame 10 has a side wall formed with a rock fixing hole 10a. The fixing device penetrates through the fixing device and is installed in the seabed. The fixing device of the present invention is formed in a stud or pin structure and is formed so as to be easily fixed by penetrating a rock through a fixing tool. For stationary devices, other publicly available methods are available.

3 is a perspective view of a fixed unit and a fixed window as an example of the natural rock fixing apparatus for underwater low-loss continuous installation of the present invention. The fixing device may be composed of the fixed unit main body 62, the fixed warehouse front end portion 66, and the fixed window 64. The fixed unit main body 62 may be composed of a fixed ball 63 which is open in the upper and lower portions like a pipe and which is hollow inside and is accommodated in the rail of the support body and a fixed window corresponding portion 65 into which the fixed window is inserted . The fixing ball 63 provided in one of the openings of the fixed unit main body can be easily passed through the fixing hole of the fixing frame and the fixing ball can be formed to have a diameter that does not come out of the fixing hole 10a. The fixed window corresponding part 65 is formed in the middle part of the fixed unit body in the form of a through hole and the threaded part is formed on the inner side surface of the through hole so that the fixed window can be fixed through the fixed window corresponding part.

The fixing window 64 may have a thread formed on the outer side surface thereof and may pass through the fixing window corresponding portion and be fixed in the same manner as a bolt and nut connection. One side of the other end of the fixing window may be formed of a frame such as a sharp spade. The fixing window can be formed in a structure that is easy to separate and assemble by providing a connecting device at a corresponding part where a separated constituent part is assembled by separating one end having a threaded part and the other end having a receiving frame. Accordingly, the length and shape of the fixed window can be adjusted according to the depth of the perforation formed in the rock bed or the gap between rock masses, so that it is possible to flexibly cope with the situation so that the facility can be firmly fixed to the sea floor terrain.

The wire 200 of the present invention may be formed of any one material selected from stainless steel copper and aluminum pipes, polycarbonate, and metal wire. Since the wire is formed as a semi-permanent support for supporting the work rope, it is preferably made of stainless steel wire.

An engaging rope 300 surrounds the side of the wire as a conventional seed line to which a seaweed seedling is implanted. The seeds of the algae to be transplanted may include a group in which one or more of green algae, brown algae, and red algae are selected, and the group may include top, seaweed, kelp, kim, paraya,

Fig. 4 shows an embodiment of the present invention. The rocking frame according to the embodiment of the present invention includes a rocking frame 10 mounted horizontally on a rocking arm and a distal end of the rocking rocking frame connected to a wire fixing frame 20 in a vertical direction, The lower row transverse wire penetration portion 21a and the longitudinal row wire penetration portion 21b are formed so that the wires can be deployed in the horizontal and vertical directions on the sea bed rock. Threaded threads of female threads may be formed inside the row and column thread through holes. In this case, a screw thread type thread is formed at one end of the penetrating wire, so that the wire and the wire fixing frame can be fixed through the screw hole in the through hole. The height of the through hole can be formed considering the movement of the living organisms to prevent the seaweed from being frosted on the rock surface.

As shown in FIG. 5, at least one fixing plate according to the above embodiment is installed in the lateral and longitudinal directions, and the rectangular frame shape is formed by connecting the wires. Considering the spacing between the horizontal and vertical directions of the fixed plate, it is possible to easily form seaweed grafts in a rocky area by transplanting the grafts with different types of grafts per unit distance. It is possible to transplant according to the type of seaweed by implanting into seaweed species by inoculating the type of seaweed into the engraved rope wound on the wire, since it is connected with the wire having a certain distance in the front and rear fixing plate which connects the one b.

In the case of a conventional seaweed low winning streak, if a part constituting the low winning streak is broken, the entire part of the low streak and the buoy which constitute the low winning streak must be newly repaired. However, , Even if some bangs fixing plates constituting the surface are broken, the whole facility can be used permanently by replacing or repairing only the damaged parts.

6 shows a spore emitting cage of the present invention. The spore emitting cage 400 of the present invention includes a frame 401 connected to form a tetrahedron, and a protection net 402 enclosing the frame. The lower part of the cage for spore discharge is composed of a wire through hole of bolt fixing plate and a bolt nut coupling, and can be installed at a certain distance from the bottom of the seabed by the height of the fixing plate. The imitation input door (403) is formed on the upper side, and the imitation pouch containing the mature imitation can be inserted into and removed from the inner space of the spore release cage. The spore release cage can be installed in a rectangular space formed by a simple fixed plate instead of a fixed plate.

The mature dummy introduced into the spore releasing cage according to the present invention is a marine algae that promotes maturation and releases spores and fertilized eggs. In the case of algae such as kelp, kotai, etc., it refers to a mature leucocyte formed with a sac.

The spore release cage can be secured to a natural rock with an L-shaped retainer. The lower outer surface of the spore releasing cage is fixed to the wire fixing frame of the L-shaped fixing device through a fixing device. After the fixation, the rock-fixed frame of the L-shaped fixture is fixed to the natural rock.

In the reef area of Jeju Island where temperate and subtropical areas are located, there is an ecosystem with seaweed as a basic producer. Major seaweeds include seaweed, matsutake, and mugwort, and abalone, sea urchin and sea urchin Seaweed feeding animals are distributed. Therefore, the mesh of the protection net is formed in such a size that infestation of breakfast animals is impossible. The matured mosquito implanted in the inside emits spores and the discharged migratory host or each spore bumps into the protective net so that it can not escape from the sea bed in ocean currents or waves and is attached to the host rocks or spores floating in the underground rocks or in the adjacent ropes installed in the vicinity . Thus, it is possible not only to prevent the feeding animals from feeding on young seaweeds in the leek stage, but also to have a higher rate of hybridization, thus making it possible to form a higher density of seaweed.

FIG. 7 is a schematic view of a composition method using the natural rock salt recovery facility of the present invention. FIG. (A) of the present invention may include a step of searching the natural rocky area of the seabed to plan the composition area, and removing the spots and foreign matter on the rock surface before installing the facility on the planned area have. As an embodiment of the present invention, the natural rocky area is not dense and has a high density of sea urchins, but avoids places where sticky organisms such as barnacles, oysters, and Mediterranean mangas are attached, and has little shade in the sea.

In the step (B) of installing the C-shaped fixing plate of the present invention, at least one C-shaped fixing plate is installed at a predetermined interval in the horizontal direction or the vertical direction. It is appropriate that the installation interval of the B-type fastening plate is developed by horizontally including a predetermined tension in the wire to be described later, and that the tension of the wire is also calculated by the current and wave. In addition, when it is desired to distinguish according to the type of seaweed and the number of individuals, the installation is carried out according to the structure to be divided.

The wire installation step (c) of the present invention includes a step of fixing the wire through the bracket fixing plate. The step (d) of installing the rope includes the step of implanting the seaweed spore into the rope and installing the rope to which the seaweed spore has been implanted along the side of the wire after the step (c) has been completed.

The mature oysters of marine algae are selected and allowed to dry in a shade for about 1 hour to release a large amount of migratory fish, and then they are put into a water tank containing the filtered seawater to release the hostfish. The seawater discharged from the marine migratory fish seeps through the microscope and confirms the active movements of the marine migrants. The rope is made into a rope and is cultivated in an indoor or outdoor water tank for a certain period of time. Then, the roots are transplanted into seawater and the roots of the roots are grown to reach the transplanting stage.

8 is a view showing a wire fixing frame fixing plate of the present invention. The B-type fastening plate of the present invention has a plate-like rock-shaped fastening frame of a certain thickness and a distal end portion of a wire fixing frame connected to each other to form a curved shape at the right side. The material is corrosion resistant steel like stainless steel and it can prevent corrosion to seawater and can be stably fixed to the bottom of sea bed and can be installed in seawater for a long time.

9 is a schematic view of a rock bed installed with a natural rock salt recovery facility of the present invention. The natural rock salt seaweed restoration facility of the present invention has a structure in which a wire penetrates through a rock bed fixed to a sea bed rock, which is horizontally installed at a predetermined interval, on the other hand, and a plurality of rock clap plates are connected to cover the entire rock surface. It is possible to install the winning streak until the part that can not be installed.

Conventional methods using ropes, weights, and the like in the setting of low successive sea forest establishment facilities are not easy in the seawater environment and the rocky area where the surface area is not flat and the height is different, However, since the fixed plate of the present invention is installed at regular intervals, it is possible to install a low continuous sea forest forming facility on various rocky terrains, so that it is highly efficient in restoration and formation of seaweeds and has high economic efficiency by using semi-permanent materials. It is expected that the contribution to the forest establishment facility will be large, so it is likely to be used industrially.

100: L-shaped locking device 10:
20: wire fixing frame 21: wire through hole
21a: horizontal row wire penetration portion 22b: vertical row wire penetration portion
200: wire 300: engaging rope
400: spore emitting cage 401: frame frame
402: Protection net 403: Imitation entry door

Claims (3)

A rock fixing frame 10 horizontally installed on the underside of the rock, and a wire fixing frame 20 formed in a "C" shape perpendicularly connected to either end of the rock fixing frame,
A rock fixing hole 10a is formed on a surface of the rock frame fixing frame 10 and a horizontal row wire penetration portion 21a is formed in a front and rear direction of a vertical surface of the wire fixing frame 20, The wire is passed through the transverse wire penetration portion and the longitudinal heat penetration portion and the inner side of the transverse wire penetration portion 21a and the longitudinal heat wire penetration portion 22b is provided with a female thread portion 22b, A screw thread of a male thread is formed at an end of the wire, and the wire is screwed into the penetrating portion,
Characterized in that an engaging rope in which a seaweed seedling is implanted is installed surrounding the wire,
(A) selecting a seabed rock bed to remove the burrs and foreign matter adhering to the rock surface of the partitioned area by searching the natural rocky area of the seabed to partition the composition area;
(B) a step of installing a low-successor device for restoring the natural rock slope of claim 1 in a rocky area selected in the step (a) at a predetermined interval in a lattice shape in a lateral or longitudinal direction;
A wire installation step (c) of fixing the wire to the fixing plate by fixing it;
Wherein the rope of the seaweed is implanted into the rope and the rope is installed along the side of the wire of the step (c). Way delete

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