KR101028837B1 - Submerging type structure for breeding abalone and under sea breeding farm using the same - Google Patents

Abstract

PURPOSE: A submerging type structure for breeding abalone and submarine breeding farm using the same are provided to maximize convenience of breeding by installing a plurality of structures in the bottom of the sea. CONSTITUTION: A submarine breeding farm comprises a main body(40), vertical pipe bodies(10A,10B), partition wall bodies(20A,20B), and a connection wall body(30). The main body is equipped with a vertical pipe body, a partition wall body, and a connection wall body. In the circumference of the arc wall(10R) and both side walls(10S) of the main body, a groove is formed at the constant interval. A slot hole(10L) is formed between grooves(A).

Description

Submerging type structure for breeding abalone and under sea breeding farm using the same}

The present invention relates to a submerged submerged abalone growth structure, in particular by installing a structure that can be farmed in one place from the plaque to success to abalone to prevent the loss of the structure due to theft and wave of the abalone, It is possible for fishermen to provide food for abalone by seaweed or kelp, which grows in abalone growing structure, without having to supply food for abalone on a ship. And submerged abalone growth structures.

In general, the submerged submerged type is a method of growing by adding the flop of abalone to a separate structure installed below the surface of the water.

It is called a lantern ceremony, and recently, it has been selected and implemented underwater sinking as part of a new abalone farming technology development project on the east coast.

In addition, as explained above, the background of the submerged submerged seawater is the industrialization of the coastal seas, the coastal fisheries pollution and the reduction of coastal fisheries caused by landfills, and the cause of unknown bleaching (lime flows on rocks or rocks in the sea). Is not covered by the algae, also known as seagrass melting phenomenon).

Due to the loss of algae caused by the bleaching phenomenon, the coastal fisheries are being desolated and the resources in the coastal farms are declining.

Conventionally, the abalone farming on the east coast includes marine cage farming, land tank farming, and spray farming farming methods. Such farming methods are selectively carried out depending on the conditions of the coast.

At this time, the sea cage is a structure made by enclosing a net in a frame having a skeleton under the surface of water, and is attached to a rope floating on the surface by connecting a rope to such a structure or another type of chalon.

In this method, the abalone, which has grown to some extent, is put in and out of success, and the structure is often lost due to high waves generated by the sea characteristics of the east coast, and thus does not contribute significantly to substantial income increase.

In addition, a large number of structures and chalons must be installed and managed for mass production, which requires a great number of workers and difficult to prevent theft over large areas.

On-site tanks, which have been carried out in other ways, are farmed by placing a chip in a tank made of a concrete structure on the ground or a tank made of various plastics.

This method has excessive defects in management costs due to maintaining adequate water quality for abalone to grow, and also causes various diseases due to indoor breeding.

Another method of spraying farming, which is used in a variety of ways, is to spread a large amount of plaque on the coast and wait for it to grow naturally.

This is the most commonly used method, and it is difficult for individual fishermen to do it.

Since this method is completely exposed from the natural enemies of various abalones, there is a drawback that the surviving rate is lowered due to the presence of the plaque as food for the abalones, and the collection rate is lowered due to the out of zone due to the mobility of the abalones.

The present invention by installing a plurality of structures on the sea floor that can be farmed in one place from the plaque to the success of the abalone to prevent theft and loss from typhoons, and to feed the abalone to feed the abalone self-feeding By doing so, the aim is to make aquaculture more convenient.

Another purpose is to have a structure that allows a large area of abalone to be attached to the structure, to enable the production of a large amount of abalone, to reduce administrative expenses and to reduce the risk of contamination. The purpose is.

Another purpose is that it is relatively heavy by forming high-performance high-density concrete structure (hereinafter referred to as `` hyperconcrete '') structure, and it is formed of plain concrete structure, so its durability is long There is that purpose.

In order to achieve the above object, the present invention is a weight submerged submerged abalone growth structure to form a pair of vertical pipes integrally as a connecting wall.

The pair of vertical tubes are rectangular vertical tubes each having an arc-shaped wall in front and rear, each having a side wall having a partition wall formed at the center of a narrow width of the rectangular hole and a connecting wall integrated between the pair of vertical tubes. Is formed.

Then, engaging grooves are formed in the circumference of both side walls and the arc-shaped wall of the main body at regular intervals up and down.

In addition, the engaging groove has a depth of 10 mm and a width of 20 mm, with a vertical gap of about 20 cm.

And the long hole for seawater inflow and outflow is formed in the up-and-down fixed space | interval of the arc-shaped wall of a main body and a partition.

And, the long hole is formed between the working grooves.

In addition, the upper and lower width of the long hole is 50mm or more so that at least two overturned abalone at the same point of the long hole can simultaneously enter the upper and lower podium of the long hole.

At least one fixed thread fixing groove for preventing engagement loosening is formed at each of the upper and lower ends of the arc wall of the main body.

The main body is a plain concrete structure, and is a high strength hyperconcrete structure.

Then, the main body of the submerged abalone growth structure is fixed to the engaging groove planted with seaweed seeds, and fixed by a fixed yarn using a fixed thread fixing groove for preventing loosening of each submerged wall. The arcs of water are submerged on the sea floor so that they are in contact with each other so that they are aligned vertically and horizontally.

The present invention is a relatively heavy body as it is formed of a hyperconcrete structure, which is a high-density concrete structure, and is formed of a weightless concrete structure, so that its durability is up to 30 years when submerged on the sea floor. Although it is usually 10 years, when the wear resistance is 3 years, the effect of significant progress can be obtained in comparison with the uselessness.

Of course, it is possible to perform independent functions after the individual body is dropped, or even if it is inverted, it is also suitable for the living environment of most carnivorous fish and indigenous fish close to nocturnal.

It is also suitable for hiding in a variety of fish habitats, from fry to adult fish.

It is close to the cylinder in structure, so that natural flow of algae is smoothed to form vortices and good inflow of various food organisms.

In addition, the main body of the present invention is a weak alkali material, not only superior strength than ordinary concrete, but also not easily broken, and once inhabited by birds or shellfish, it is excellent in aquatic forest composition by semi-permanent habitat.

Meanwhile, in the present invention, the long hole is horizontally drilled in the main body, so that the inflow and outflow of seawater is possible through the vertical wall, so that the seawater resistance is less, so that the structure can stand well without falling down and leaving the structure.

Of course, the arc wall of the main body will also bring a very desirable effect as a structure that receives less seawater resistance.

In addition, vortices are formed inside and outside the vertical pipe by seawater flowing in and out of the long hole, so that nutrients such as organic matters at the bottom of the seabed are good for aquaculture.

In addition, the seaweed kelp stocked on the field grows well by winding the fish on the structure, and this is a nature-friendly food that is fed to the farmed abalone. It is effective to have the optimum conditions for farming as it is not necessary.

On the other hand, in another embodiment of the present invention, by making the engagement close to each of the pair of vertical walls of the structure, the engagement can be made close to the structure, so that a better feeding effect can be achieved. .

1 is a perspective view of one embodiment of the present invention.
Figure 2 is a plan sectional view according to Figure 1 for showing the working groove of the present invention.
Figure 3 is a vertical sectional view according to Figure 1 for showing the long holes of the present invention.
Figure 4 is a plan view showing a farm in which the structure of the present invention is arranged.
Figure 5 is a plan sectional view according to Figure 1 for showing the working groove of another embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, the same reference numerals are used for the same components even if they are shown in different drawings.

One Embodiment of the Invention

First, with reference to the accompanying drawings will be described the configuration of a structure according to an embodiment of the present invention.

1 is a perspective view of one embodiment of the present invention, Figure 2 is a cross-sectional view according to Figure 1 for showing the working groove of the present invention, Figure 3 is a vertical cross-sectional view according to Figure 1 for showing the long hole of the present invention, Figure 4 is a plan view showing a farm in which the structure of the present invention is arranged.

As shown in FIGS. 1 to 3, the submerged abalone growth structure is a main body 40 as a connecting wall 30 in which a pair of rectangular vertical tubes 10A and 10B each having an arc wall 10R is connected back and forth. Is composed.

Forming the front and rear surfaces of the rectangular vertical tubes 10A and 10B as the arc walls 10R has the effect of reducing resistance to seaweeds, and in particular, the colonies are settled so that the arc walls 10R come into contact with each other. If you do, it is to provide space for abalone to grow.

The partition walls 20A, 20B are formed in the center of the narrow width | variety of the rectangular hole of rectangular vertical pipe bodies 10A and 10B, respectively. Such barrier ribs 20A and 20B allow the main body 40, which is the finished product of the present invention, to have a relatively appropriate load. And it has a structural strength reinforcement of the rectangular vertical tube (10A, 10B).

In addition, it is intended to create a condition for growing as much as possible rolled over as a result of widening the overall surface area of the main body 40.

Of course, the bulkheads 20A and 20B are narrow in width, and the horizontal diameter is a design structure with emphasis on structural strength, and when the cross sections of the vertical pipes 10A and 10B are relatively thick, unlike the embodiment of the present invention. The partition walls 20A and 20B may be formed to cross the wide width of the holes of the vertical tubes 10A and 10B.

If the partitions 20A and 20B are formed across the wide width of the holes of the vertical pipes 10A and 10B, the result is that the overall surface area of the main body 40 becomes relatively wider, so that more abalones stick together and grow. Will make

In the submerged submerged abalone growth structure formed by forming the main body 40 in a structure in which the pair of vertical tubes 10A and 10B are integrated by the connecting wall 30, the connecting wall 30 is one vertical tube. The 10A or the vertical tube 10B is not intended to have a weight alone when submerged in water, and is to add stability to the main body 40 in a configuration in consideration of the center of gravity due to not being easy to stand upright.

On the other hand, a groove A is formed in the circumferences of both side walls 10S and the arc-shaped wall 10R of the main body 40 at which the engagement 50 is seated and installed at regular intervals. The groove A in which the engagement 50 is installed is preferably 10 mm deep and 20 mm wide, with a vertical gap of about 20 cm.

This is suitable for preventing the seed of seaweed or kelp planted in the intestine 50 to fall off in the sea water and the incorporation 50 itself is well settled in the body 40.

Of course, in one embodiment of the present invention because the engaging 50 is surrounded by the entire circumference of the body 40, the actual configuration, the groove (A) will be formed only around the outer circumference of the vertical pipe (10A, 10B).

On the other hand, in the main body 40, the long hole 10L for the inflow and outflow of seawater is formed at regular intervals between the arc-shaped wall body 10R of the vertical pipe bodies 10A and 10B and the partition walls 20A and 20B.

The long hole 10L allows seawater to flow into and out of the main body 40, and due to the inflow and outflow of the seawater, fine vortices are formed in the elemental elements of the structure of the main body to allow nutrients on the seabed to float. The action and biological oxygen supply by newly introduced seawater to the abalone, which is attached to the main body 40, has a favorable effect, not only to improve the ecological environment but also to grow seaweed kelp grown as food. It has a good effect.

And, preferably, the long hole 10L is formed between the working grooves A.

This can be said to be a composition according to appropriate measures to prevent the seaweed kelp, etc. rooted for food of abalone do not interfere with the flow of seawater.

And, the upper and lower widths of the long hole (10L) is 50mm or more so that at least two overturned at the same point of the long hole (10L) can simultaneously enter the upper and lower ends of the long hole (10L).

Of course, this is to ensure that the inflow and outflow of seawater by ensuring the length and width of the long hole (10L).

And, at each of the upper and lower ends of the arc wall (10R) of the vertical pipe (10A, 10B) at least one engaging loosening fixing thread (W) is fixed to the upper and lower sides of the vertical pipe (10A, 10B) fixing groove for fixing (H) is formed.

And, importantly, the main body 40 according to the present invention is a plain concrete structure, and is formed of a high-performance high-strength hyperconcrete structure.

It is a high-density, high-strength, not only increases the weight of the structure per unit volume, but also the surface is dense and durable when submerged on the seabed has been found to have more than three times the strength and durability compared to conventional reinforced concrete structures.

On the other hand, Figure 4 is a plan view showing a farm in which the structure of the present invention is arranged.

As shown in FIG. 4, the engaging groove A of the main body 40 has a plurality of seams that are secured around the planting of seaweed seeds, and fixed with a fixing yarn W using the engaging loosening fixing yarn H. The main bodies 40 are submerged on the sea bottom so that the arcs of each arc wall 10R abut each other, and are thermally aligned vertically and horizontally to form a subsea farm using the submerged abalone growth structure.

In FIG. 4, both side walls 10S and the arc walls 10R of the respective main bodies 40 are shown to be in contact with each other, but it is not easy to actually arrange them to be in contact with each other. .

In practice, the proximity of the unit assembly is to ensure that the dense structure is integrated in a certain area without loss of any seaweed.

In addition, in consideration of the state of a particular disaster, it is possible to fix the escape-preventing wire around the circumference of the main body 40 or a predetermined unit assembly around the main body 40, or fix it in other ways. Is achieved.

On the other hand, the size of the main body and the like can be determined by referring to the data of the seaweed into which the main body of the present invention is introduced, and the seabed topography, but the overall height is about 1.2 m and the long width is about 2 m. It seems appropriate.

[Other Embodiments of the Invention]

On the other hand, in one embodiment of the present invention is a structure in which the engaging groove (A) formed in the main body 40 and the engaging 50 surrounded by the groove (A) is wrapped around the main circumference of the main body 40,

In another embodiment of the present invention, the working groove A 'is formed around the periphery of each of the vertical pipes 10A and 10B except for a portion through which the connection wall 30 passes, as shown in FIG. 5. do.

Of course, in order to prevent discontinuity along the connecting wall 30 in which the working groove A 'abuts, the engaging installation hole 31 is formed at the corresponding position of the connecting wall 30.

Of course, in this case, there may be a structure without the fixing yarn (W) and the mounting groove (H) as in the embodiment of the present invention.

Such a structure can be configured such that employment is completely seated around the vertical tubes 10A and 10B, so that self-feeding of the abalone can be achieved by safer and more efficient employment.

On the other hand, although not shown in the embodiment of the present invention, the vertical wall (10A, 10B) and the connecting surface 30, the towing ring may be properly disposed. It is used to sink to the seabed or to tie a tow line during positioning and removal.

[Example of aquaculture farm using the present invention]

In the embodiment of the present invention, if necessary during the installation process of the farm considering the algae and the seabed topography, the abalone growth structure of the present invention forms a colony, and in a state where a large number is settled, it may be necessary to fix the group around the entire community.

Means for preventing the loss of the structure is not shown, it is fixed to the wire around the perimeter of the colony of the structure, or any of the vertical tube (10A, 10B) of the structure body 40 located at the edge of the community of the structure to form a farm assembly It may be possible to install a pile in one vertical hole to ensure that farm groups are not lost in emergency seabed situations such as tsunamis.

10A, 10B: Vertical tube 20A, 20B: Wall
30: connecting wall 40: main body
10R: arc wall 10L: long hole
10S: Both side walls A: Groove
H: Settling groove W: Fixed thread

Claims (10)

In forming the submerged abalone growth structure,
A pair of rectangular vertical tubes 10A and 10B each having an arc wall 10R back and forth;
Barrier ribs (20A, 20B) formed in a narrow central region of the rectangular holes of the rectangular vertical tubes (10A, 10B); And
Submerged submerged abalone growth structure, characterized in that the main body (40) is formed by having a connecting wall (30) integrally connected between the pair of vertical tubes (10A, 10B).
The method of claim 1,
Underwater submerged abalone growth structure, characterized in that the engaging groove (A) is formed at regular intervals up and down around both side walls (10S) and the arc wall (10R) of the main body (40).
The method of claim 2,
The engaging groove (A) is a submerged submerged abalone growth structure, characterized in that the depth of 10mm, the width 20mm vertical gap 20cm.
The method of claim 1,
Underwater submerged abalone growth structure, characterized in that the long hole (10L) for seawater flow in and out at regular intervals of the arc wall (10R) and the partitions (20A, 20B) of the main body 40 is formed.
The method of claim 4, wherein
The long hole (10L) is submerged submerged growth structure, characterized in that formed between the working groove (A).
The method of claim 4, wherein
Underwater submerged abalone growth structure, characterized in that the upper and lower width of the long hole (10L) is 50mm or more and at least two overturned at the same point of the long hole (10L) can simultaneously enter the upper and lower podium of the long hole (10L) .
The method of claim 1,
Underwater submerged abalone growth structure, characterized in that at least one or more engaging loosening fixing thread fixing groove (H) is formed on each of the upper and lower ends of the arc wall (10R) of the main body (40).
The method of claim 1,
The main body 40 is a plain concrete structure, submerged submerged growth structure, characterized in that the high-strength hyperconcrete structure.
The method of claim 1,
The vertical grooves 10A and 10B of the main body 40 are provided with a groove A 'for engaging at a predetermined circumferential interval, but a through hole 31 is formed in the connection wall 30 at the corresponding position. Submerged growth structures.
In the seabed farm using the submerged abalone growth structure according to any one of claims 1 to 9,
Engagement grooves A and A 'of the main body 40 are fixed to the entire operation 50 planted with seaweed seeds, or are enclosed separately to each of the vertical tubes 10A and 10B, and the holes 31 of the connecting wall 30 are formed. And a plurality of main bodies 40 which are not fixed or fixed to the engaging loosening preventing thread W using the fixing grooves H by using the seating grooves H of each arc-shaped wall 10R. An undersea farm using underwater submerged abalone growth structures, wherein the arcs are submerged on the sea floor to be in contact with each other to be aligned vertically and horizontally.

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