KR101480268B1 - Underwater facilities for seaweed forest - Google Patents

Abstract

The present invention provides underwater deep longline fishery facilities which comprise: a fixating member which has a gravitational force in an upper part; a mainline which is connected to an upper part of the fixating member; a seaweed cultivation line, which passes through a connection unit, and is fixated to one side of the connection unit by making a connection member formed in the uppermost part of the mainline and a T-bolt type connection unit engaged through corresponding screw pitches, respectively; and rope and buoy which are connected to an arbitrary position of the seaweed cultivation line or an upper part of the connection unit through an aluminum panel or a ring using a T-bolt type connection unit for constructing sea forest. The purpose of the present invention is to improve production of seaweeds and restore fishery resources of whitening costal area to solve problems: existing deep longline fishery facilities which are installed using existing seedling ropes have difficulty in performing repair and maintenance of the cultivation line; and the cultivation line have to be replaced every year, and sea forest construction work shall cause a delay due to the grazing of herbivores which moved along the main line.

Description

BACKGROUND OF THE INVENTION Underwater facilities for seaweed forests have bolted connections for sea forest formation.

More particularly, the present invention relates to a low-stagnation sea forest facility installed in a seawall, and more particularly, to a fixing member having a sedimentation force at its lower portion, a corrugated string connected to the upper portion of the fixing member, And the seaweed is protected from the pirate creatures ascending on the corrugated lines by fixing the seaweed positive line.

The plants that live in the sea are called algae, and they are divided into phytoplankton which is a living life and large bird which lives high order. Only the latter is called seaweed. Seaweeds are classified as algae, algae, red flora, and seagrass species. These algae proliferate through the asexual reproduction method by spores and the sexual reproduction method by the spouse. The spore forming body is called sporophore, and the object forming spouse is called gamot.

Seaweed culture is usually carried out by setting a certain compartment in the sea and installing a foot or a support neck. In this case, a description of a synthetic fiber adhered to a marine aquarium is attached to a foot or a support tree This has been done in a way.

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' means that the sea forests grow in the seawater as the tropical forests form. Seaweeds that make up the sea forest are brown algae with high biomass. 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.

Recently, the seaweed, seaweed, and rhubarb which were inhabited in the coastal aquaculture farm due to the strong winds of Kuroshio turbulence, El Niño phenomenon and train environmental pollution have disappeared, and there has been a kind of algae coral birds Algae Whitening, which is a large breeding of birds, covers the rock. The whitening phenomenon rapidly destroys sea forests and existing coastal aquaculture farms and has a considerable influence on the marine ecosystem including changes in food chain structure of abalone and sea urchin, scattering of various fishes and habitat environment.

The whitening phenomenon that occurs all over Korea spreads to the depths of about 10m on the coast, and so far it has occurred in a large area of the total fishing ground, causing serious damage to fishermen. In the waters where the whitening phenomenon occurs, not only depletion of marine resources but also eutrophication is promoted, and it is known that natural healing is impossible without artificially restoring them.

In order to solve the whitening phenomenon, ecological restoration technology of various methods such as seaweed bedding facilities which are artificially introduced into artificial structures, low-hanging facilities, spore bag facilities, Has been developed and is being introduced according to the situation in the field.

The dual low - successive facility is a method of connecting seaweed - type ropes to the low - successive - type rope installed at the seabed of the sea, and manpower and expenses are consumed for the management work to replace the rope installed between the fishing rods and the fishery each year. Also, once the plant has been installed, sea urchins and moths, which are excessively generated in the waters of the whiteness area regardless of the growth of the seedling, climb up the corrugated lines, and the seaweeds living in the seaweeds are cooled, It is necessary to develop a technology that can solve the problem.

As a patent document related to seaweed harvesting, the Korean Registered Utility Model No. 20-0451216 discloses that the structure of the through hole of the upper body is composed of a through hole forming an inclined surface, and the constitution of the projected portion is gradually reduced in diameter to form a step Since the upper frame to be fixed to the lower frame is firmly fixed, the frame is kept in its shape so that it is excellent in durability and prevents the winding thread from being scattered. Discloses a construction of a frame for seaweed cultivation combining a substructure. Korean Patent Laid-Open Publication No. 10-1999-0040837 relates to a description of seaweed used mainly for the production of seaweed such as seaweed, sea tangle or seaweed, and for the production of seaweed using Binilon spinning, And the twisted twisted yarn is twisted in a direction opposite to the winding direction of the twisted yarn, and the twisted twisted yarn is wound in a diagonal direction to tighten the twisted yarn The examination is fixed by the fasteners of the fasteners, and the clearance formed at this time is made to be the wing parts which are known to you, so that the spore gaps of the wing parts made of twisted yarn, 4 It is a structure that allows the locus of the distributor or the divided spore to be easily reproduced There it ignores. Korean Patent No. 10-1013888 discloses a rope made of coconut fiber and a rope made of mulberry fiber to twist a rope made of algae culture rope using natural fibers, In order to prevent the water from dwelling by lowering the specific gravity lower than that of water, the proportion of the coconut fiber is 70 to 90% by weight and the ratio of the mica fiber to the fiber is 10 to 30% by weight A rope for cultivating a seaweed harvest is disclosed. This prior art invention relates to a description of a method for making seaweeds, which comprises fixing a seaweed line by combining a connecting portion formed by a bolt-type structure and a connecting member formed at the top of a corn line, The present invention differs from the technical features of the present invention in that it is capable of protecting algae living in the amphibian from the pirate organism.

As a method for restoring sea forests, low-streak facilities equipped with conventional nodule ropes are troublesome and need to be replaced annually. In addition, As a result, the present invention provides a low-strenght facility using a bolt-type connection unit as a method for improving the productivity of seaweed in the sea area where the rusty sound is generated and restoring the fish stock.

In order to solve the above problems, the present invention provides a seawater sewing machine comprising: a fixing member having a bottom soaking strength; a seaweed augmenting line connected to a connecting member formed at a top portion of a dash line; In a low-streak sea forest facility installed in a rich seawater connected with at least one rope formed at an arbitrary position in a seaweed amendment line,

Wherein the corrugated line is formed by male and female bolts at both ends or at one end thereof, and the transverse member and the longitudinal member are connected to the seaweed line, the transverse member is provided with a through hole through which the seaweed positive line passes, And a connecting portion formed by the connecting portion is formed and connected to the corrugated line.

The connecting part provided on the seaweed amendment line is formed by a combination of a T-shaped or a + -shaped transverse member and a transverse member, and the transverse member of the connecting part formed by combining the T-shaped or + And is formed so as to be openable and closable by a fixing device.

The corrugated fiber is made of any one material selected from stainless steel, carbon fiber or ENPLA (Engineering Plastics) and has a diameter of 3-10 mm. The connecting portion formed in the positive string is composed of a combination of a cross member having a + shape and a cross member, and a corrugated string having a bolt shape is connected to both ends of the cross member of the + So that the seawater positive strand has a multi-layer structure.

In addition, a fixing hole is formed on the upper part of the connection part formed by the combination of the T-shaped transverse member and the longitudinal member so as to fix the rope connected to the part, and the seaweed positive string is any one selected from a polymer compound, natural fiber, .

That is, a plurality of threads are formed on the inner side of the lower portion of the connecting portion into which the connecting member enters, and a plurality of threads are formed on the outer side of the connecting member formed on the uppermost portion of the corrugated column to correspond thereto, And a seawater prolonging line is fixed so as to be positioned at one side of the connection part.

The underwater low-strenght facility of the present invention can be utilized as a sea forest formation structure for a variety of purposes such as a seafood bank, a seed bank feeding ground, etc. by forming a plurality of communities to form an ocean forest. In addition, since the threaded connection is formed so that the T-bolt-type connection portion and the connection member formed at the uppermost portion of the corrugation line are respectively associated with each other, it is possible to fix the seaweed positive line only by assembling a simple component, Or high-strength plastic, which can solve the problem of the existing low winning streaks in which pirate creatures ride on the corrugated lines.

FIG. 1 is a perspective view of a low-water continuous-harvesting facility using a bolt-type connecting part for forming a sea forest according to the present invention.
FIG. 2 is an enlarged view of a connection relationship between a connection portion and a cornice line of a low-staking-water facility using a bolt-type connection portion for forming a sea forest according to the present invention.
3 is a view illustrating a modification of a connection frame of an underwater low-rigidity facility using a bolt-type connection part for forming a sea forest according to the present invention.
FIG. 4 is a view showing a coupling principle of a modified connecting frame of an underwater low-kinking facility using a bolt-type connecting part for forming a sea forest according to the present invention.
FIG. 5 shows a multi-stage coupling principle using a modified connecting frame of an underwater low-kinking facility using a bolt-type connecting portion for forming a sea forest according to the present invention.
FIG. 6 shows the connection between the connection ring and the fixing member of the water low-draw-off facility using the bolt-type connection part for the sea forest composition of the present invention.
FIG. 7 shows a state in which a plurality of underwater low-rigidity facilities using an A-type bolt-type connection unit for the sea forest composition of the present invention is installed.
FIG. 8 is a view showing a state where a plurality of underwater low-rigidity facilities using a B type bolt-type connection part for forming a sea forest according to the present invention are installed.
FIG. 9 shows a bolt-type connecting ring and a fixing member of an underwater low-strenght facility using a bolt-type connecting part for forming a sea forest according to the present invention.
FIG. 10 is a view illustrating a modification of a fixing member of a low-streakwater facility using a bolt-type connection part for forming a sea forest according to the present invention.
11 is a view showing a modification of a fixing member of a water-low successive facility using a bolt-type connecting part for forming a sea forest according to the present invention.

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

FIG. 1 is a perspective view of a low-water continuous-harvesting facility using a bolt-type connecting part for forming a sea forest according to the present invention. The low water consecutive facility using the bolt type connection part for the sea forest composition according to the present invention comprises a main body part 1 constituted of the technical constituent part of the low-successive facility of the present invention, a seaweed aquarium rope 2 connected to the main body part for cultivating seaweed, And a buoy part (3) connected to the seaweed positive line and having buoyancy.

The main body portion 1 is composed of a fixing member 15 having a sedimentation force, a cornice 13 having upper and lower connecting members 12 formed in the form of a thin thread, and a connecting portion 11 formed of a frame- . The connection member formed at the lower portion of the corrugated column corresponds to the connection ring 14 provided at the upper side of the fixing member and the connection member at the upper portion of the corrugated column can be easily connected to the connection and disconnection of the constituent portion of the body portion.

Especially, in order to prevent pirate creatures such as sea urchins from rising on the corrugation line, it is necessary to form the corrugation line with a diameter of 10 mm or less. In order to have such a diameter, I can not solve it.

Accordingly, the corrugated strip 13 used in the present invention is selected from among stainless steel, carbon fiber or ENPLA (Engineering Plastics) capable of replacing metal, which is not easily corroded in seawater. It is made of one or more materials, but it is used as a string with a thin thread shape. The appropriate diameter is preferably 3-7 mm, and both ends of the corrugated line are formed by bolt processing so as to be connected to the connection portion.

Because of its relatively low corrosion rate compared to other metals, it can be used semi-permanently. There is little need for replacement. Pirate animals such as sea urchins and pits that float on the bottom of the sea floor or in the bottom sediments due to thin and smooth materials, And it contributes to the formation of the sea forest by protecting seaweeds such as seaweed, kelp, seaweed, mackerel, and mackerel, which are formed on the seaweed lining line formed in the seaweed lining line (2).

The fixing member 15 is made of a material having a predetermined penetration strength, and can be selected and applied to at least one of an anchor block, a concrete block, an iron, or a stone contained in a mesh. After the fixing member is fixed to a certain part of the sea floor, it is possible to connect the corrugated wire through the connection ring formed in the upper part.

The connection between the corrugated wire and the fixing member can be connected through a shackle connection, or the corrugated wire can be passed through the connection ring of the fixing member by using a compression bonding member made of aluminum, It is possible to connect and fix by passing through the connecting ring.

The buoy part (3) is a constitution including a rope connected to the seaweed amphibian string (2) or an aluminum panel or ring formed on the connection part (11) and a rich part. If the length of the seaweed prolongation line is long or the installation interval of the facility is wide, due to the weight of the seaweed growing from the positive line, the downward sagging occurs, or the seaweed positive line increases the underwater load as the seaweed grows, It is necessary to install a site having appropriate buoyancy in a certain portion of the seaweed lining line when a plurality of facilities are installed.

FIG. 2 is an enlarged view of a connection relationship between a connection portion and a cornice line of a low-staking-water facility using a bolt-type connection portion for forming a sea forest according to the present invention. Although the connecting portion 11 of FIG. 2 is shown as a T-bolt frame, the connecting portion frame of the present invention is not limited thereto and may be variously modified in the form of "T" and "+" "I" depending on the purpose of use.

The connection part is made of hollow structure like a pipe and is fixed by passing through a seaweed positive line. The material can be made of any one selected from stainless steel, plastic, natural fiber and synthetic fiber such as PVC, ABS, FRP, sus 304 , It is appropriate to form it from a material which does not cause a warping phenomenon and which is hard and does not corrode the sea water.

The through holes connected to the left and right sides of the connecting portion 11 are installed so as to penetrate through the seaweed positive string 2 through the through holes formed at the left and right sides of the connecting portion side member so as to be slightly larger than the diameter of the seaweed positive string 2 . Also, in the interior of the connecting hole opened to the left and right, an auger protrusion or convex irregularities may be formed to increase the bonding force with the seaweed positive string.

The seaweed-positive line is characterized in that any one selected from seaweed mosquito, gypsum, sporophyte, and marine sediments discharged from seawater is attached, which is selected from seaweed and kelp mackerel.

The seaweed progeny line (2) can be constructed by cutting the algae lobes or engraftments that have been grown in seawater discharged from the seaweed goby or marine algae to a certain size after cutting them at regular intervals and inserting the pieces one at a time. 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 may typically be comprised between 5 and 7 m.

The lower part of the connecting part longitudinal member is formed with a through hole that can correspond to the connecting member 12 provided on the upper part of the corrugated column so that the connecting member can be received and fixed inside the connecting part. A plurality of threads are formed inside the through hole of the connecting portion 11 into which the connecting member 12 enters and a plurality of threads are formed outside the connecting member 12 to correspond to the threads.

The connecting member 12 rotates to enter the connecting part 11, and the respective threads are coupled while being corresponding to each other. The number of threads formed in the connection portion 11 is smaller than the number of threads formed on the outside of the connection member 12 and enters the through holes connected to the left and right connection portions 11 of the connection member 12, So that the seaweed amphorae 2 passing therethrough are positioned on one side of the connecting portion 11. [

The fixing principle is a method of rotating the fixing member in a predetermined direction, thereby facilitating mounting and dismounting, preventing the facility from being damaged by currents, and reducing manpower and expense required for management work.

3 is a view illustrating a modification of a connection frame of an underwater low-rigidity facility using a bolt-type connection part for forming a sea forest according to the present invention. The frame may be deformed according to the purpose. In a modified embodiment of the present invention, a '+' -jacket-connected frame formed of a transverse member and a longitudinal member formed of a pipe structure is shown.

Generally, when a seaweed amphibious line is fixed, a general transverse member can be received and fixed inside the transverse member through the through hole formed by the left and right sides of the transverse member. In addition, the deformed type transverse member is composed of two semicircular hinge joints, and is formed so as to be openable and closable by a fixing device so that the upper side is cut in the horizontal direction and the fixing device 17 is installed on the cut side, It is possible to fix the seaweed positive line to the connection part by the structure which receives and opens the positive line.

In the fixing device of the embodiment of the present invention, protrusions are formed on the incised side surfaces and grooves are formed on the incised side surfaces corresponding to the protrusions when the protrusions are opened and closed to accommodate the protrusions. Therefore, it is possible to easily separate the connection part to be separated even when the low-striking facility is installed in the sea, and the installation work is simple and time-consuming is less than the method of installing it on the existing seaweed line.

The longitudinal member is a space in which the connecting member installed on the upper portion of the corrugated tube is received and fixed, and the existing connecting portion longitudinal member is limited in its role by fixing the connecting member to the lower opening portion of the connecting portion.

However, as shown in Fig. 4, the deformed longitudinal member may be threaded on the inner side surface of the upper opening portion, as shown in Fig. 4, so as to receive the connecting member. As shown in Fig. 5, As a result, it is possible to control the length of the corrugated lines as well as to install a number of low-loss facilities in multiple stages.

FIG. 6 shows the connection between the connection ring and the fixing member of the water low-draw-off facility using the bolt-type connection part for the sea forest composition of the present invention. In the present invention, the fixing member is represented by an anchor-shaped fixing member, but the fixing member may also be formed of a stitch. TYPE A in Fig. 6 shows a connection structure of a basic connection ring and a fixing member of the present invention, and TYPE B shows a modified embodiment of a connection ring.

The TYPE A has a connection member 14 connected to an upper portion of the fixing member 15 and connected to the tether 13 and a connection member 12 formed at the top of the tapered tether 13 is coupled to the connection portion 11 . In the TYPE B, the connecting ring 14 formed on the upper portion of the fixing member 15 can be connected through the shackle coupling in connection with the corrugation or can be connected to the fixing member 15 using the compression connection member made of aluminum. It is possible to fix by fastening the end which passed through the connecting ring or by fixing it by passing it through the connecting ring to the eye of the ice ply.

FIG. 7 shows a state in which a plurality of underwater low-rigidity facilities using an A-type bolt-type connection unit for the sea forest composition of the present invention is installed. The method of installation of underwater low-rise facility for the formation of sea forest is to check the location of the rock in the sea and select the appropriate sea area as the location of low-rise facility. Next, the position is indicated on the part where the low-successive fixing member 15 is to be installed with the indicator or the underwater paint on the seabed, and the fixing member 15 is dropped to the position while being moved to the vessel.

After the step of confirming the installation position and disposing the fixing member 15 in a predetermined cluster shape as a reference at a predetermined interval horizontally and horizontally with the low-odd-numbered facility is completed, ). And fixing the seaweed saline 2 so that the seaweed saline 2 is positioned at a certain height through the connection of the connecting member 12 located at the uppermost portion of the corn line with the connecting portion 11. [

FIG. 8 is a view showing a state where a plurality of underwater low-rigidity facilities using a B type bolt-type connection part for forming a sea forest according to the present invention are installed. In the present invention, the site 3 comprises a rope connected to a selected one of an aluminum panel or rope loop formed at any position of the seaweed positive row, as shown in Fig. 8, and a minus fixed to one side of the rope Structure. Another embodiment consists of a rope connected to a selected one of the aluminum panels or rings 19 protruding above the connection 11, as shown in Fig. 5, and a rich secured by the rope.

When a plurality of underwater low-strenghtening facilities according to the present invention are installed, if the length of the seaweed amphibious barb 2 is long or the installation interval of the facility is wide, it is sagged downward due to the weight of algae growing from the positive bobbins. In addition, the seaweed amphibious line (2) can be drained down by adding a constant load to the positive line due to the increase of the underwater load as the seaweed grows.

Therefore, the buoyancy of the rich used in the present invention should be larger than the sum of the weight of the seaweeds in the main body 1, the seaweed salmon ropes 2, and seaweed salmon ropes, and a plurality of underwater low- , One or more of the riches having adequate buoyancy at any location on the seabed prose string (2) or above the connection shall be essential.

The surface of the lower side surface of the fixing member described above has a flat-formed structure, which is easy to install at a flat sea floor but is not suitable for installation in a sea water environment where the surface area of the sea floor is not flat and the height is different. 9 to 10 are views showing the construction of the low-streak facility of the present invention, in which a modified fixing member suitable for the seawater environment is installed or compatible, And shows a modified example of the ring and the fixing member.

The embodiment shown in Fig. 9 uses a fixing member formed of a tetrapod frame so as to be suitable for a non-flat bottom of the seawater, and a fixing hole is formed in a part of the frame of the protruding fixing member, T-frame. The above-mentioned deformation apparatus has an advantage that the fixing member and the connecting member of the existing apparatus for fixing the fixing member by connecting the connection ring and the fixing member in a common line can be prevented from being separated by the current.

If the undersea of the site where the purpose is to establish a low-striking facility is a rocky area, a method of fixing the fixed member to the rocky area of the rock or rock may be used rather than the weight of the rock by the weight.

FIG. 10 is a view illustrating a modification of a fixing member of an underwater low-kinking facility using a bolt-type connection part for forming a sea forest according to the present invention using the above-described method when the undersea environment is formed of a rocky zone. The fixing member 15 includes a fixing table 18 including coupling means formed to be able to maintain a fixed state in the rock and a supporting member 19 serving as a coupling medium with the coupling ring 14, ≪ / RTI >

The support body 19 may be constructed by vertically and horizontally opening a polygonal frame of a predetermined size, forming a ring-like structure, and horizontally and vertically disposed supports crosswise. A plurality of rail grooves are formed on one side surface in the longitudinal direction of the outer wall of the support body and a fixing groove is formed in one of the rail grooves so that the fixing roller is accommodated in the rail through the fixing groove and moves along the rail groove .

A fixing roller, which can be received in the rail of the support body, is provided at one end of the fixing table 18, and a through hole or a through hole formed in the rock body at one end of the other end, Respectively.

The coupling means is formed by a frame having a pointed end at one end so as to interfere with the wall surface of the rock clearance space, and a helical coil is provided at one side of the frame symmetrical to the coupling frame.

The coupling means of the structure and the fixing method of the fixing base may be provided with a female screw on the inner side of the through hole of the fixing base, and one end of the coupling means provided with the helical coil penetrates the through hole so that the fixing base and the coupling means can be screwed and fixed.

When the distance between the through hole of the fixing base and the position where the helical coil is provided is near when the fixing member and the coupling means are screwed, it is possible to fix the depth of the coupling means fixed to the clearance space of the rock deeply. Since the depth of the coupling means is shortened, it is possible to control the depth of insertion of the coupling means, which is easily fixed, when the coupling means is inserted into the rock, and the fixing table is freely movable in the left, right, up and down directions along the rail groove of the support It can be moved and installed in many places, so it is easy to install even on uneven surfaces.

The present invention provides a low-stiffness low-strenghtening facility for semi-permanently usable low-strenght water, which fixes seaweed bows by means of a T-bolted connection and a connecting member formed at the top of the stern, As the seaweed grows on the seabed line, the seaweed that has progressed through the ridge becomes a sea forest and forms a fishing ground, restoring the fishery environment through the food chain, and contributing greatly to the future nationalization of the seaside. There is a potential for industrial use.

1: main body part 11: connection part
12: connecting member 13:
14: connecting collar 15: fixing member
16: Joint 17: Fixing device
18: Fixture 19: Support
2: Seaweed-positive line 3:

Claims (5)

A fixing member having a sinking force at a lower portion thereof; a seaweed lanyard connected to a connecting member formed at the top of a dart line connected to the fixing member; In a low-streak sea forest facility installed in a rich seawater connected with at least one rope formed at an arbitrary position in a seaweed amendment line,
Wherein the corrugated line is formed by male and female bolts at both ends or at one end thereof, and the transverse member and the longitudinal member are connected to the seaweed line, the transverse member is provided with a through hole through which the seaweed positive line passes, Wherein the connection part is connected to the corrugated line and is connected to the corrugated line.
[3] The method according to claim 1, wherein the corrugated strip is made of any one material selected from stainless steel, carbon fiber, and ENPLA (Engineering Plastic) Which has a bolt-type connecting part for the formation of a sea forest,
[3] The seawater desalination apparatus according to claim 2, wherein the connection portion provided on the seawater prospect line is a combination of a T-shaped or a +
Wherein the transverse member of the connection portion formed by combining the T-shaped or the + -shaped transverse member and the transverse member is formed by two semicircular hinge joints and is formed to be openable and closable by a fixing device. Underwater low-streak facility
[5] The method according to claim 3, wherein a fixing hole is formed on an upper portion of the connection portion formed by combining the T-shaped transverse member and the longitudinal member so as to fix the rope connected thereto, and the seaweed positive string is selected from a polymer compound, Wherein the water-borne low-stiffness joint having a bolt-type connection portion for forming a sea forest
4. The seawater desalination apparatus according to claim 3, wherein the connection portion formed in the seaweed amendment line is formed by a combination of a transverse member and a longitudinal member having a + shape, and a corrugated line having a bolt shape is connected to both ends of the longitudinal member, And the upper portion is formed to have a multi-layer structure by combining the T-shaped connecting portion and the seaweed positive line.

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