KR101549214B1 - Outdoor culture system using upwelling flow for shellfish spat. - Google Patents

Abstract

The present invention relates to a culturing apparatus of an oyster spat for the ocean comprising: a deck part which is mounted on the uppermost of the apparatus at predetermined size; and a pontoon frame which is used as a mediator of a deck part and a culturing frame; a culturing frame which is fixed and mounted in the lower direction of the pontoon frame, wherein a plurality of culturing tanks and a drainage pipe are mounted in the culturing frame, wherein a circulation system is mounted in the culturing tanks and the drainage pipe. The culturing apparatus of an oyster spat for the ocean can increase circulation efficiency by inlet and outlet of seawater from the ocean to the apparatus, is easy to detach and attach each element of built-up-type and has an effect on increasing inlet and outlet of seawater to the inside of the apparatus.

Description

An outdoor culture system using upwelling flow for shellfish spat.

[0001] The present invention relates to an oyster cultivation apparatus capable of cultivating an initial plaque in a marine cage for a predetermined period of time, and more particularly, to a deck part installed at the top of an apparatus, a deck part connected to a deck part, A positive frame which is made up of a frame and a spatula and fixed in the lower direction of the pontoon frame and a drainage pipe which is installed inside the positive frame to regulate the flow of seawater so as to circulate the inside of the device and seawater The present invention relates to a spore feeding apparatus.

Oyster is a generic term for Filibranchia oyster and Bivalvia, and there are oviposition, oyster shell, barbit oyster, hairy oyster, and oyster in Korea, but it is usually called edible oyster to be.

Oysters are not only excellent in taste and flavor but also have a lot of essential amino acids among proteins and are called 'sea milk'. They are rich in calcium and vitamins A, B and C, helping to have smooth and smooth skin. It can prevent various adult diseases such as hypertension, stroke, arteriosclerosis, liver disease and cancer.

These high-quality nutrients have been used worldwide to prevent the formation of oysters (Crassostrea gigas), Ostrea ariakensis, C.virginica, C.angulate, Saxostrea commercialiis, Bombay oyster .cucullata, O. edulis, and O. lurida.

Typical oyster cultivation is through seeding, rooting, harvesting. 'Harvest' is the process of artificially managing and cultivating the cultivation process by limiting the radius of life of the warts, and 'harvesting' Is the process of collecting or sampling.

The oyster is a hermaphroditic body, but at the reproductive stage, it is an alternate hermaphrodite which becomes clearer and stronger male body and then becomes magnetically stronger. The spawning temperature is 22 ~ 25 ℃ and the hatching larvae become floating I go to life after 20 days. The oyster shell grows about 7cm in length, about 60g in weight, about 10g in 2 years, 140g in 1 year, but grows slowly afterwards. Depending on the species, the place of oyster is somewhat different, and the oyster is relatively low in concentration of 11 ~ 32% It attaches to the rocks in the intertidal zone, and the burrows are attached to the rocks of the inner sea of 26-34% salinity.

The oyster spawns in summer when the water temperature is over 20 ℃. It is the most powerful when around 25 ℃. One mother gives birth to tens of millions of eggs. After two to three weeks after the transformation of the turn, it enters into a fixed life and its size is about 0.3mm in diameter. Fixation depth is about 6m from the water surface and sticks most 2m. The seedling for cultivation seeds the oysters and scallops on the wire and hangs them in a shallow place.

After the seedling is over, it grows to a certain extent, then it is transported to the aquaculture facility, and after 2 to 3 months after the seedling, it is moved to a higher place and exposed for 4 to 5 hours to suppress the growth, It grows to about 15mm until about April, but after that it grows fast and is resistant to environmental changes.

Korea's oyster cultivation has a form of hanging down from the old days by the tidal stone ceremony, raft ceremony, and short-haired ceremony (rope) In some cases, they are housed in floors or churns and underwater. If you look at each of them briefly, the catamaran is put on a raft, which is a raft, and hangs on the bottom. This method is rarely used at present due to a large facility cost and inconvenience in handling. On the other hand, the rope type floats on the sea surface with a rope, is fixed with an anchor, and then hangs on the rope by hanging the lower part of the water. The above method is relatively large in the positive water area, Method.

A simple method is to hang two rows of horses from the vicinity of the liver line to a depth of several meters and then to hang the bottom of the bamboo which is woven in the lengthwise and crosswise direction and the method of barking is to hang twigs between the bamboo and the crossing And the dialysis ceremony is to cultivate by putting stone on the exposed floor between high tide and low tide.

Unlike ordinary oysters, which can be ingested in the form of oolgung, oyster shells are difficult to separate and separated from shells when they are harvested, Tidal flats (individual oysters) are being cultivated for 12 to 18 months in a palm-sized size and processed into oyster shells with oyster shells.

In general, the general oysters generally earn 30 to 50 million won per 1 ha. In contrast, the individual oysters of the tidal flats have more than 150 million won per 1 hectare, and they can earn 3 to 5 times as much as ordinary oysters, It grows in a shallow sea of about 20m, but it grows in the tidal flats and makes a plastic frame with a height of about 40cm above the tidal flats, puts a seed in it and goes on the tide and ebb tide to endure the summer heat and cold wind in the winter, It is rich in amino acid content than ordinary oysters.

The food with the object oyster is the food which is eaten with the wine together in France etc. The world market size is 10 billion (France 5 billion, Europe 3 billion, America and Japan 2 billion) And it is necessary to develop a device capable of mass maintenance of individual oysters, which can reduce the natural loss and efficient maintenance of individual oysters.

Japanese Patent Application Laid-Open No. 10-2009-0071390 discloses a frame comprising a top horizontal support portion having a lattice structure formed by a linear steel cross-fixed transversely and horizontally, and a plurality of leg portions extending downward from the horizontal support portion and fixed to the sea floor, At least one plate-shaped sinking prevention plate fixed to the leg portion so as to be substantially parallel to each other, a bag-shaped positive net to which the oyster rack is mounted and which is seated and fixed to the horizontal support portion, And a guide member having at least one pair built up along the longitudinal direction of the net, so that the top and bottom surfaces of the positive net do not touch each other. In Korean Patent Laid-Open Publication No. 10-2012-0146332, a seawater supply line includes a main supply line and a plurality of branch lines branched from the main supply line and connected to the larval water tank. A valve is installed. A seawater inlet is formed in the lower part of the larval water tank, a breeding water outlet is formed in the upper part of the larva water tank to discharge the breeding water of the individual oysters, and a powder for breeding larvae is injected into the space between the sea water inlet and the breeding water outlet, And a larval water tank is disclosed for an individual oyster-positive device capable of being detached from each of the separation pipes. Korean Patent Laid-Open Publication No. 10-2014-0047765 discloses a method for transferring breeding water between at least two individual oyster culture units having a water tank for receiving breeding water and a positive net to be installed in the water tank, The present invention relates to an apparatus and a method for culturing oysters in an aquacultural environment that can efficiently cultivate oysters on land, including a breeding water conveying unit connecting two water tanks. In Korean Patent Registration No. 10-2013-0138098, a cage frame assembled in the form of a hexahedron frame is disposed inside a positive cage of a waterproof tent material forming an immersion net, and pumping or falling It is possible to easily install and use in water cage facilities on the sea or on the aquaculture water tank by installing a water pipe that provides upward and downward water flow by the drop method. It is possible to easily carry out feeding of food and oxygen and disposal of excretion, and it is possible to easily change the direction of the water stream according to the size of the seeds, while the mesh size of the seedling can be changed by the size of the seeds A reversible water reversible cage assembled shellfish positive plant which can be easily replaced. However, the above-mentioned prior art document has a problem that the deck portion provided at the uppermost part of the apparatus with a certain size of the present invention, the pontoon frame connected as an intermediary of the positive frame, the positive frame fixedly installed in the lower direction of the pontoon frame, And a drainage pipe installed inside the positive frame to allow circulation of seawater to the inside of the device, thereby making it possible to produce a spatula of a certain size inside the device.

In order to solve the above-described problems, the present invention is made to provide a deck structure, a deck structure, a pontoon frame connected as a medium of a positive frame, and a positive frame fixedly installed in a lower direction of the pontoon frame, In the positive frame, a plurality of breeding tanks and drainage pipes are installed, and a circulation system is installed in the breeding tank and the drainage pipe to enable the inflow and drainage of seawater to increase the circulation efficiency of seawater in the device. It is intended to provide a spore feeding apparatus.

The present invention relates to a deck which is formed with a predetermined area and has an opening formed at a central portion thereof and installed at the top of the device; A pontoon frame installed at the bottom of the deck section and fixing the pontoons and the positive frames; And a positive frame installed on the pontoon frame in a direction perpendicular to the opening of the deck part. The positive frame is composed of a reservoir and a plate frame, and a water tank is installed at the center of the upper part of the plate frame. The water tank has an open top and a bottom of the tank and an outer wall. And a water pipe is installed on the outer wall.

In addition, a fixing hole is formed in the plate frame, and a breeding tank is connected to a water storage tank through a water pipe. Upper and lower portions of the breeding tank are opened, a through hole is formed in the outer wall of the breeding tank, The openings are equipped with nettings and reefs, and the seawater is discharged from the ocean to the reservoir. The water is transported to the reservoir through a water pipe. A drainage pipe is installed in the drainage pipe. And a drain pan is installed in the lower opening.

Wherein the drain pipe is formed to have a length such that the motor can protrude from the opening of the deck part and a plurality of drain holes are formed in the middle part of the pipe so that the collected seawater is drained through the drain hole. do.

The oyster hatchery according to the present invention can be easily assembled and separated, and the circulation device capable of moving the seawater to the water tank through the breeding tank and the water pipe is mounted on the sea, It is effective to increase the drainage efficiency and breed while training oysters on the sea.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an oyster cultivation apparatus of the present invention. Fig.
2 is a plan view of a deck portion of the oyster cultivation apparatus of the present invention.
3 shows an inverter of an oyster cultivation apparatus of the present invention.
4 shows the lower part of the pontoon frame of the marine oyster feeding device of the present invention.
5 shows a positive frame of the oyster cultivation apparatus of the present invention.
6 shows a perspective view of a part of a breeding tank of an oyster cultivation apparatus of the present invention.
7 is a perspective view of a water pipe of an oyster cultivation apparatus of the present invention.
8 shows a drain pipe of an oyster cultivation apparatus of the present invention.
9 shows a drain pan installed inside a drain pipe of an oyster cultivation apparatus of the present invention.
FIG. 10 is a schematic view of the sea circulation process of the oyster cultivation apparatus of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to specific configurations and accompanying drawings relating to an oyster cultivation apparatus of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an oyster cultivation apparatus of the present invention. Fig. The marine oyster mugging device of the present invention comprises a deck part installed at the top of the device with a predetermined area; A pontoon frame 20 connected as an intermediary of the deck portion and the positive frame; A positively-charged frame (30) which is positively stuck and fixedly installed in a lower direction of the pontoon frame; And a drain pipe (40) for controlling the flow of seawater and installed inside the positive frame.

Since the deck part 10 is a plate of a certain polygonal shape and has a high strength as in the case of the anticorrosion paint and contacts the seawater for a long period of time, the deck part 10 is preferably made of a material resistant to direct sunlight and moisture.

The openings are formed in the central part of the deck part in the upward and downward directions by an area of a predetermined size and the openings are formed in the area of the positive frame installed at the lowermost part so that the user can supply or harvest the spatula from the deck This is possible.

A lid 11, a cover 12, and an inverter 13 may be provided on the upper side of the deck portion. 2 is a plan view of a lid and a cover installed on the deck of the oyster cultivation apparatus of the present invention. Since the cover 12 is installed to protrude through the opening portion of the drain pipe, it is necessary to protect the protruded motor portion from the external environment and to prevent the seawater from being flooded with the motor. As shown in Fig.

The cover 11 is formed to have an area corresponding to the opening portion except for the opening portion in which the cover is provided, and it is preferable that the cover 11 and the cover have a structure capable of opening and closing the opening portion as shown in FIG. It is made of the same material as stainless steel which is resistant to corrosion.

3 shows an inverter of an oyster cultivation apparatus of the present invention. The inverter 13 is V / F controllable so that the voltage (V) and the frequency (f) can be controlled to be constant. The inverter 13 is connected to the deck portion via a bar frame so that the deck portion and the inverter are spaced apart at regular intervals Flooding into the inverter and control of the user can be facilitated.

The pontoon frame 20 is a component directly contacting the seawater and is suitably formed of a material resistant to corrosion and strong in durability such as aluminum or stainless steel. The pontoon frame may have an outer frame formed to have a diameter corresponding to the deck portion, a pontoon provided at an edge of the outer frame, and an inner frame forming a frame capable of receiving the positive frame at a position where the opening is formed .

The pontoon frame is provided at an upper portion of the pontoon frame, and the pontoon frame corresponding to the opening portion formed at the deck portion is installed so that the inner frame protrudes downward in the pontoon frame so as to fit and fix the upper portion of the reservoir.

4 shows the lower part of the pontoon frame of the marine oyster feeding device of the present invention. The pontoons 21 are formed of a plastic material (ENPLA, EP: Engineering Plastic) having a specific gravity smaller than that of water. The pontoons 21 are hollow and function as a buoyant material for imparting buoyancy to the apparatus so that the pontoons and decks are not immersed in seawater. The shape of the pontoons can be formed by a polyhedron structure. However, in order to allow the user to work in a stable manner on the deck portion by imparting buoyancy evenly to the entire deck portion having a flat shape, a structure of a rectangular parallelepiped And a plurality of pontoon units are installed at each corner of the pontoon frame.

5 shows a positive frame of the oyster cultivation apparatus of the present invention. The positive frame 30 is suitably made of a plastic material which is strong in durability and resistant to the corrosion of seawater, because it is in direct contact with the constituent parts where the seawater is inflowed and drained and the seawater is accommodated. The positive frame is composed of a polygonal-structured water reservoir 34 and a plate frame 37 whose upper part is opened. In the embodiment of the present invention, the water reservoir is installed in the upper middle part of the plate frame, The structure of the reservoir is located.

In the plate frame, a plurality of fixing holes having a predetermined diameter are formed to fix the breeding tank so that the upper part of the breeding tank can be fixed through the fixing holes. The water tank has an upper opening and a water tank bottom and an outer wall. On the outer wall of the water tank, a plurality of water pipe (32) are installed so as to be connected to the inside of the breeding tank, and seawater collected in the water tank is drained to the ocean A drain hole 31 is formed.

6 shows a perspective view of a part of a breeding tank of an oyster cultivation apparatus of the present invention. The breeding tank (33) is a space in which the stool is accommodated and cultivated. It is appropriate that the stool accommodated in the breeding tank is accommodated in the stool of about 10 mm or more through the early larval stage in the room. The upper part of the breeding tank has a certain height and width so as to pass through the fixing holes of the positive frame, and the breeding tank frame shown in FIG. 6 is formed into a cylindrical shape The structure of the breeding tank of the present invention is not limited to this. Corresponding to the water pipe installed in the positive frame on the side of the outer tank wall of the breeding tank, a through hole having an appropriate diameter is formed so as to be connected to the tank, and seawater can be collected from the tank into the water tank.

The handle formed on the outer side of the breeding tank is designed to be easy to move the breeding tank. In the middle part of the outer side of the breeding tank, a protruding form of the breeding tank for mounting and fixing the breeding tank is installed. The lower opening in the breeding tank is a space where most spoons are accommodated, and there is a guard dog (35) so that seawater can flow easily from the mesh and the sea to the fishing rod of a size that can prevent the spoilage from being lost to the sea .

When the seawater is introduced through the bottom opening of the breeding tank, the friction between the sidewalls of the breeding basin and the fluid is formed and the velocity of the fluid decreases as the sidewall approaches the inside of the breeding basin. Due to fluid friction (fluid friction), which is a resistance due to viscosity when the fluid moves along a solid surface, the velocity decreases due to the viscosity of the fluid as it moves closer to the tube wall as it moves along the solid surface Since the velocity distribution of the fluid in the tube changes, problems such as growth imbalance due to the circulation flow of the seawater in the lower part of the water tank may occur.

In order to solve the above problems, an electric circuit sealed by a pipe designed to be waterproof is connected to a feeding junnel (35) provided at the lower part of the feeding tank to transmit the power to distribute the flow of the water in the feeding tank evenly, Not only can the process be performed smoothly, but also the circulation efficiency can be increased by increasing or decreasing the speed of the incoming seawater.

 7 is a perspective view of a water pipe of an oyster cultivation apparatus of the present invention. The water pipe 32 is formed in a structure such as a pipe having an open top and a bottom and an empty interior, and serves to introduce seawater collected in the holding tank into the water storage tank. A plurality of through holes are formed on the outer side of the water pipe to allow the seawater in the feeding tank to move to the water tank for a short period of time. The water pipe is surrounded by a shaft having a diameter that can prevent the water from being discharged to the outside through the water pipe. It is possible to prevent the spatula from moving to the reservoir through the opening formed in the pipe or the through hole.

8 shows a drain pipe of an oyster cultivation apparatus of the present invention. The drain pipe 40 is installed in the drain port 31 formed in the positive frame to drain the collected sea water into the sea. The drain pipe has a structure in which the upper and lower portions are opened and the lower opening is bent at a certain angle, the motor 41 is installed in the upper opening, and a plurality of drain holes 42 are formed on the outer side of the drain pipe intermediate portion.

The length of the drain pipe is suitably formed so that the opening of the drain pipe can protrude from the deck opening so that the motor can not be flooded by seawater and a portion of the drain pipe Can be mounted and fixed.

9 shows a drain pan installed inside a drain pipe of an oyster cultivation apparatus of the present invention. Inside the drain pipe, a drain pan is installed below the drain, and the drain pan is connected to the motor through an enclosed conduit. The drain pan serves to facilitate the drainage of seawater from the reservoir through the drain hole to the ocean through the lower opening. The drain pan increases the flow velocity in the downward direction to increase the velocity of the drainage and form a vortex so as to prevent the velocity distribution from varying by the in-pipe fluid friction.

The bottom opening of the drain pipe is formed by a curved structure bent 180 to 270 °. When the drain pipe is made to be horizontal and vertical, the seawater discharged from the drain pipe to the ocean flows in a direction perpendicular to the flow of the ocean current. And the drainage efficiency can be reduced due to the resistance with the current. Therefore, the opened side of the drain pipe may be formed to have a bent structure at a constant angle, so that the drainage efficiency can be increased by discharging the seawater according to the flow of the ocean current.

FIG. 10 is a schematic view of the sea circulation process of the oyster cultivation apparatus of the present invention. The seawater introduced into the breeding tank in the sea is upwelling to the lower opening of the breeding tank and is transported to the water tank through the water pipe connected to the breeding tank and is sucked into the drain pipe through the drain hole by the downwelling, The process repeats.

If the circulation process is not performed, a certain amount of seawater is introduced into the breeding tank, and the pressure of the sea becomes equal to that of the sea, and the flow of the water is disappeared and is in a stagnant state. In this case, suspended matter accumulates in the breeding tank to increase the turbidity of the seawater, pollute it, and supply the seawater, which is the source of the nutrient source and respiration, to the spoons.

Thus allowing the circulation of the overall seawater of the breeding device through the drain pan. In addition, it is possible to prevent the fluid friction by installing the rearing tank in the breeding tank and to circulate all the seawater circulation without stagnant seawater, thereby contributing to the pleasant seawater culture environment and producing high quality seawater.

In the present invention, each component is assembled, and it is easy to separate and mount, and a circulation device capable of moving seawater to a water tank through a feeding channel and a water pipe is mounted on the sea, thereby improving the inflow and drainage efficiency of seawater into the device, The production of individual oysters is possible in large quantities, so it can be used industrially because it can be raised as productivity and new high-income strategic industries.

10: deck part 11: cover
12: Cover 13: Inverter
20: pontoon frame 21: pontoon
30: positive frame 31: drain
32: channel pipe 33: breeding tank
34: Water tank 35: Breeding japan
37: plate frame 40: drainage pipe
41: motor 42: drain

Claims (7)

A deck portion formed at a predetermined area and having an opening at its center to form an upper surface; A pontoon frame and a positive frame for fixing the pontoon and the positive frame are installed at the lower part of the deck part;
The positive frame is composed of a reservoir and a plate frame, a water reservoir is installed vertically in the center of the plate frame, at least one fixing hole is formed on both sides of the plate frame,
The water tank has an upper opening and a bottom of the water tank and an outer wall. A drain hole is formed on the bottom of the water tank. A water tank is surrounded by a net, and the tank and the water tank are connected to each other.
The upper and lower portions of the breeding tank are open, and a through hole is formed in the outer wall of the breeding tank to allow water pipes to be connected to each other. A mesh net and a breeding tank are installed in the lower opening to move the sea water from the sea to the breeding tank, In addition,
The drain pipe is provided with a drain pipe through which the motor is installed in the upper opening and the drain pipe is installed in the lower opening,
Wherein the drain pipe is formed so that the motor can protrude from the deck part opening part and a plurality of drain holes are formed in the middle part of the pipe so that the collected sea water is drained through the drain hole. delete delete delete delete delete delete

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