KR101402683B1 - An apparatus for oyster aquaculture - Google Patents

Abstract

The present invention relates to an apparatus for installing a tidal flat oyster cultivation net which comprises: a main body of which both ends are open; a pair of caps which are able to be inserted into the main body; and an inner cultivation net which is able to be arranged in the inner space of the main body, wherein, two inner cultivation nets can be embedded in the single main body by forming a divider made up of a PE net in the inner space of the main body, to provide sufficient cultivation space in which young shells and adult shells are not entangled, thereby reducing the mortality rate. Additionally, the present invention is able to increase productivity by supplying nutriments to young shells and adult shells since nets and through-holes in the main body, the cap and the inner cultivation net are manufactured so that the tidal current circulation of an inner part and an outer part are facilitated. The present invention is able to healthily and safely cultivate the young shells and adult shells of oysters at a tidal flat in which the ground is weak by installing the cultivation net on the apparatus for installing the cultivation net comprising: a horizontal pipe; a vertical pipe which is connected to the horizontal pipe through an upper coupler; a rest which is able to be installed on the horizontal pipe; a support which is connected to the vertical pipe through a lower coupler; and a vertical pipe in which a line keeping groove is formed on the vertical pipe, thereby being able to mass produce healthy oysters.

Description

An apparatus for oyster aquaculture

The present invention relates to a method and apparatus for collecting oyster larvae, which are provided with a grape harvesting machine capable of harvesting oyster larvae, It is about the installation of the tidal flat omnivorous fishing net which can be cultivated together.

In general, oyster is a generic name of Filibranchia oyster (Bivalvia) belonging to the oyster, and there is oviposita, gangul, baritul, wool gul, It is also called. The oyster is a hermaphroditic body, but at the reproductive stage, it is an alternate hermaphrodite with a distinct male and female body and then a strong magnetism. The spawning temperature is 22 ℃ to 25 ℃ and the hatching larvae become valerian larvae I live a rich life, and after about 20 days, I go into attachment life.

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.

These 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'. It is rich in calcium and vitamins A, B and C, Eating can prevent various diseases such as hypertension, stroke, arteriosclerosis, liver disease, cancer, etc.

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 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.

However, it is difficult to carry out the work as the whole process of the work depends on the workforce. In addition, there is a great disadvantage in that the amount of harvest is reduced due to the occurrence of spoilage or natural loss of success or failure due to the flow of seawater.

In order to solve the above problems, the present invention has developed a benign net mounting apparatus capable of simultaneously cultivating oyster larvae, spawning, and spawning in order to effectively perform oyster cultivation even in a place where oyster farming infrastructure such as a tidal flat environment is weak. And to provide a tidal flat ovine netting installation capable of mass production of high quality individual oysters by reducing mortality.

Korean Patent No. 10-0261437 discloses a charging network which is in the form of a sack for charging a seed coat and a plurality of supporting rods interlocked in longitudinal and transverse directions so as to put the charging net thereon, A frame body supported by the leg portions, the frame body including a plurality of support legs arranged in parallel with each other at regular intervals to form a leg portion with the lateral support rods, A set-up type oyster structure composed of a plurality of barbs which are arranged at a predetermined interval in a longitudinal direction so as to form longitudinal support rods, . Korean Patent No. 10-0261437 discloses a frame composed of an upper horizontal support portion having a lattice structure formed by a linear steel material crosswise fixed crosswise and a plurality of leg portions extending downward from the horizontal support portion and fixed to the sea floor, At least one pair of plate-like sinking stoppers mounted on the legs so as to be parallel to each other and mounted on and fixed to the horizontal support portions and a pair of at least one pair of opposite- And a guide member which is built in and is spaced apart from the upper and lower surfaces of the positive net so that they do not touch each other. Korean Patent No. 10-1282132 discloses a hose having a support portion continuously formed with a hollow cylindrical cylindrical connection groove spaced apart from each other by a predetermined distance and a leg portion bent downward from both sides of the support portion to maintain a predetermined distance between the support portion and the bottom surface, And a charging net supported by the supporting part on the coupling area of the supporting part and the supporting part, and a charging net supported by the support part and the charging area of the supporting part, wherein the supporting part is slidably inserted into the hollow part of the coupling groove in a direction perpendicular to the supporting part, And a method for installing the same for aquaculture. Korean Patent No. 10-0591586 discloses an oyster larva having an external water tank, a larval water tank, and a drain pipe used for producing oyster seedlings, in addition to which an oyster juvenile water tank having a feeding pipe and seawater are supplied to the external water tank, The method according to any one of claims 1 to 3, wherein the larval water tank network is formed by spraying powder of any one of crustacean shell powder, dolomite powder, limestone powder, or mixed powders of these powders into shells, The present invention relates to a method for producing seedling seeds, which can produce a seedling having a single oyster larvae attached to any one kind of powders of the shell nacelle powder, dolomite powder, limestone powder or mixed powder of these powders, Discloses an individual oyster seed production and production system capable of producing individual oysters. However, in this prior art, one or more supporting members formed by connecting one or more vertical members vertically connected to each other through a horizontal member and a connecting member as in the present invention, and at least one supporting member having an oyster- And a structure in which at least one mounting member capable of mounting a stitching plate is vertically connected to the horizontal member via a connecting hole is not disclosed between the supporting member and the supporting member.

The present invention is based on the provision of a grape harvesting machine capable of harvesting oyster larvae, which is capable of picking up larvae scattered from the bones of the bamboo net, We also want to provide a marsh bullfighting net installation site that can effectively cultivate oyster larvae even from this vulnerable area.

In order to solve the above-described problems, the present invention is characterized in that at least one supporting member formed by connecting one or more vertical members vertically connected to each other through a horizontal member and a connecting hole is provided, and at least one supporting cradle And at least one positive plate mounting member is formed to be connected to the horizontal member via a connecting hole so as to be installed between the supporting plate and the supporting plate.

The positive plate mounting member is formed with an "a" -shaped concave groove on the upper surface and a lower surface of the lower plate so that the positive plate can be pushed and fixed by the concave groove, and a groove is formed in the shape of "c" And the positive plate can be slidably engaged from the upper end to the lower end.

In addition, the positive plate has a polygonal outer frame and a mesh network on the inner side, and convex protrusions are formed in the upper and lower corners at the corner of the lower surface, so that the positive plate can be pushed into the concave groove of the positive plate mounting member And a tidal flat omnivorous net installation site capable of fostering tidal flat omnivores and nesting seeds.

By providing stunts and oysters that can sculpt the scattered oyster larvae and a bennet netting stand that can train the oysters, the larvae that have been scattered from the oysters are slaughtered in the oysters and the oysters are collected It is possible to cultivate oyster larvae safely and cultivate high quality oysters in a place where the oyster cultivation base such as the tidal flats environment is weak by using the tidal flat ovine netting installation which can be cultivated from the beginning to the end of the succession. And the productivity of the oyster culture business can be improved.

1 shows a perspective view of a cradle for a conventional oyster test.
FIG. 2 is a perspective view of a tidal flat omnivorous fishing net installation capable of cultivating the tidal flat ooze and nursery of the present invention.
FIG. 3 is an enlarged view of a portion of a mussel-owl-positive net installation stand of the present invention.
FIG. 4 is an enlarged view of another portion of the disposing plate installation portion of the tidal flat ovine netting installation of the present invention.
FIG. 5 is an enlarged view showing a process of detaching a zigzag plate in a fitting groove of a tidal flat omnitropic net installation stand of the present invention.
Fig. 6 shows a photograph in which a tidal flat omnivorous net is installed in a positive ophthalmic tooth.
Fig. 7 shows an example of a positive network installed in a tidal flat ovine-tilled marshland.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 shows a perspective view of a cradle for a conventional oyster test. The conventional oyster racks are spaced apart from each other by a predetermined distance, and are vertically connected to the vertical bar arranged at the upper end of the vertical bar and the vertical bar arranged at the upper end of the vertical bar. There is no function other than the function to install and cultivate oyster-positive net on the upper part of the oyster for this oyster cultivation. Therefore, there is a disadvantage that the tidal flats can not be used in combination.

FIG. 2 is a perspective view of a tidal flat omnivorous fishing net installation capable of cultivating the tidal flat ooze and nursery of the present invention. The tidal flats and bullfighting net installation stand capable of cultivating tidal flats and nursery moths has one or more support rods 54 formed by connecting one or more vertical members 52 connected vertically through a horizontal member 51 and a connection port 53 And at least one mount 55 is provided between the mount 54 and the support so that the oyster seedlings can be picked up. Member is vertically connected to the horizontal member 51 through the connecting hole 53. [

One or more cradles 55 provided on a horizontal member connected via a connection port 53 may be laid horizontally or vertically and the connection ports 53 may be formed of a " 51 or the vertical member 52 by connecting the end portions of the connecting member by jointing.

The vertical member 52 can also be provided with a pedestal 56 connected via a connecting port 53 which is adjusted such that the end portion of the vertical member is embedded in the tidal flats and then the pedestal portion is positioned on the surface of the tidal flats And prevents the vertical member from sinking into the tidal flats due to the weight of the positive net placed on the upper side. The horizontal member 51 and the vertical member 52 may be inserted into the insertion hole of the upper connector 53 and then fastened with a fastening bolt to the fastening hole and the lower connector 53 may be fixed to the vertical member 52 It is possible to adjust the height of the pedestal 56 according to the ground of the tidal flats installed by moving up and down through the through holes, and fix the fastening bolts to the fastening holes. As the pedestal is installed, it is possible to prevent the subsidence from sinking into the tidal flats due to the load of the benches.

The support member 54, the horizontal member 51, the vertical member 52 and the pedestal 56 may be installed at regular intervals according to the size of the tidal flat or aquaculture site and the vertical member 52 and the horizontal member 51 ) Is made of a synthetic resin or a metal material inside and a coating layer made of a salt resistant material wrapped in synthetic resin or rubber may be formed on the outside of the metal pipe to prevent corrosion of the metal pipe due to direct contact with seawater.

Between the vertical member (52) and the vertical member, a mounting member (57) is formed on which the daffling plate (60) can be mounted so as to grasp the oyster seedling. The stationary member (57) is installed between the vertical members (52) so that at least one of the stationary members (57) is arranged so that the oyster seedlings have.

The protruding plate 60 has a polygonal outer frame and is formed by a mesh network on the inner side. The protruding plate 60 is formed with a protrusion "A" protruding outward from the outer frame at the top and bottom edges. And can be pushed and fixed by a vertical groove connected to a horizontal groove formed on one side of the upper and lower ends in a horizontal direction. The embroidery portion made of the mesh of the inner portion of the embroidery frame 60 is preferably made of a natural rope or the like so that the embroidery seedlings can be adhered well.

FIG. 3 is an enlarged view of a portion of a mussel-owl-positive net installation stand of the present invention. The protruding plate mounting portion of the positive net mounting base is formed in a "C" shape so that the convex protruding portion of the mitral plate 60 is inserted into and detached from the "C" shaped groove of the fitting portion. In this case, the " C "-shaped grooves of the embroidery plate fixing member 57 are provided at the upper and lower ends of the mounting member 57, respectively, so that the lower part of the embroidery plate is first fitted to the embroidery plate mounting member 57 , And the upper portion can be engaged with the engraving plate rest member (57).

FIG. 4 is an enlarged view of another portion of the disposing plate installation portion of the tidal flat ovine netting installation of the present invention. The net mounting plate of the positive net mounting base is formed with vertical grooves connected to the horizontal grooves formed in the horizontal inner side on one side of the upper end portion and the lower end of the mounting member; Shaped protrusion formed on the outer side of the relief plate is slidably inserted into the horizontal grooves of the relief plate mounting portion and is slid into the vertical grooves to be detachable. Vertical grooves connected to the horizontal grooves formed in the horizontal inner side formed in the stationary member 57 are provided at the respective upper and lower ends of the stationary member 57 so that the protrusions of the stationary plate are aligned with the grooves, And the engraving plate protrusion can be seated on the vertically formed groove and coupled to the stationary member 57. [ FIG. 5 is an enlarged view showing a process of detaching the tabletop plate in a vertical groove connected to a horizontal groove of the tidal flat ovum-net mounting plate of the present invention.

Fig. 6 shows a photograph in which a tidal flat omnivorous net is installed in a positive ophthalmic tooth. The photograph shows a basic form in which a horizontal member and a vertical member, which are not provided with a relief plate mounting portion, are combined. The positive net 10 to be placed on the positive net mounting base is fitted with the cap 20 at both ends of the main body and is fastened by the fastening means. When the fastening means is released, the cap 20 is separated from the main body and both ends are opened . The cap 20 is fixed to the main body at both ends of the main body so that the cap 20 can be opened and closed. It is possible to facilitate the work of putting in or taking out.

A plurality of through holes are formed in the pair of caps 20 at predetermined intervals. Inside the net, a partition 30 made of a synthetic resin material is formed in a vertical direction. Since the inside of the body can be divided into two zones, the space for positively growing oysters per unit area can be increased, and the sizes of the through holes and the mesh are formed smaller than the size of the positive scratches.

Fig. 7 shows an example of a positive network installed in a tidal flat ovine-bearing cave. The size of the positive net is 1010 x 10m, 460 x 10m and can be adjusted by the operator. In the center of the positive net, a vertical partition 30 is formed to divide the inside of the main body, thereby increasing the area of spoilage per unit area and the area of positive and negative, thereby providing a sufficient positive space.

In addition, a frame is formed on the edge of the end of the body so that the cap can be tied at both ends of the positive net, and a plurality of holes are formed at regular intervals in the frame, so that the cap is fitted to both sides of the positive net, . The pair of caps close the both ends of the main body to prevent spoilage of the inside of the cap from escaping, and also to prevent the shape of the main body of the mesh from being deformed.

The cap has the same shape as that of the open both ends of the positive net main body and can be covered by the end edge of the main body and a plurality of engagement holes are formed around the frame and the cap at the end of the main body, And can be fixedly coupled with the main body through the opening.

In addition to the structure in which both sides of the main body are made up of the fixing surface which is fastened through the cap and the fastening means, the other side can form an opening and closing opening and closing opening and closing means for the operator to take out the spit, The hinged opening / closing port is formed so that the positive net frame is composed of an upper half portion and a lower half portion, a hinge is formed on one side where the upper half portion and the lower half portion are in contact with each other, and an upper half portion and a lower half frame are coupled to each other via a hinge. The engaging member may be a fastening means formed in a button shape or a ring shape. The upper and lower portions can be opened and closed by the fastening means, so that the worker can work conveniently.

By using positive bands and positive bands to cultivate oysters and bruises, it is possible to increase the survival rate by solving the problems of oyster loss and to produce healthy oysters. There is a possibility of industrial use that can contribute to the increase of income of fishermen by improving international competitiveness of aquaculture technology as well as development of fisheries field.

<Short description of symbols>

10: positive net 20: cap

30: partition 51: horizontal member

52: vertical member 53:

54: support 55: cradle

56: pedestal 57: stationary member

60:

Claims (5)

At least one supporting member connected with one or more vertical members vertically connected to each other through a horizontal member and a connecting hole, and one or more oysterous nettings placed at an upper portion of the supporting member;
Between the support and the support, at least one mounting member, on which the embossing plate is provided, is vertically connected to the horizontal member via a connector;
A vertical groove connected to a horizontal groove formed in a horizontal inner side is formed on one side surface of the upper end portion and the lower end portion of the stationary member;
Shaped projections protruding outward from the outer frame at the upper and lower edges of the outer frame with a polygonal outer frame, and the projections of the extension plate are inserted into the horizontal grooves of the mounting member, The tidal flats are equipped with the tidal flats, which are capable of cultivating the tidal flats.
At least one supporting frame formed by connecting one or more vertical members connected vertically through a horizontal member and a connecting hole,
An oval tubular positive net body having a space formed therein at an upper portion of the support; A cap is attached to both sides of the positive net, and a central separating partition is vertically arranged in the longitudinal direction at the center of the body to form a cubic frame in each of the compartments, Wherein at least one oysterous net formed to be insertable is placed,
At least one mounting member capable of mounting a stitching plate is vertically connected to the horizontal member via a connecting hole so that an oyster seedling can be formed between the supporting member and the supporting member,
The stabbing member is composed of vertical grooves having a horizontal cross section and can be slidably coupled from the upper end to the lower end with the upper surface and the lower surface corner formed with the "a" To establish a tidal flat omnivorous cultivation network capable of cultivating tidal flats
[3] The method of claim 1 or 2, wherein a part of the vertical member is formed with a pedestal to prevent the tidal flat settlement of the benign net mounting base. delete delete

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