KR101402282B1 - Upwelling and downwelling reversible flow with built-up-type cagelike device for rearing of shellfish seed - Google Patents

Abstract

The present invention relates to a shellfish seed culture facility which allows the culture of initial juvenile shellfish of which height or length is 1 to 30 mm after seed collection of pediveliger larvae in a process of producing shellfish seeds, which are artificial seeds of shell fish, in a cage culture facility in the offshore or in an indoor culture system, more particularly, to a prefabrication type shellfish seed culture facility with an upstream and downstream reciprocal type cage which can be easily installed to a cage culture facility in the offshore or in an indoor culture system; can easily supply foods and oxygen, and process excrements by helping smooth circulation of rearing water through a net; and can easily modify the direction of water flow by the size of the shellfish seeds; can easily replace a cage by the mesh size of the net or the size of the shellfish seeds using a separation mode of the cage; and can minimize a storage volume after using since the culture cage can be folded after separating the cage frame, by arranging prefabricated cage frames which are assembled as a hexahedron frame shape in a waterproof tent-material culture cage of which bottom surface comprises a net, and installing a water steam pipe in an upper-central part inside the culture cage for providing upstream and downstream water flow using pumping or falling down method. Therefore, the mass production of superior shellfish seeds with lower costs can be possible. The facility is optimized to the production of artificial seeds of Bivalvia which requires entity-based single seed production such as Crassostrea gigas.

Description

{Upwelling and downwelling reversible flow with built-up type cagelike device for rearing of shellfish seed}

The present invention relates to a method of producing an initial seedling having a size of 1 to 30 mm after the seedling of the seedling larvae in the production process of the seedling, which is the artificial seedling of the shellfish, (2 ~ 30mm) or downward (2 ~ 30mm) according to the management situation by using a pumping pump or a hydraulic water pressure. It is possible to produce a large amount of good seedling and it is possible to easily use the cage as a cage having an immobilization net suitable for the size of seeds by the cage separation method and to minimize the storage volume thereof and to produce a single type of seedling Which is optimized for the production of artificial seeds of bivalve.

In general, seedling is very important because it is the starting point for the aquaculture industry in the aquaculture industry. Bivalve shells such as oyster (bivalve shell: two left and right shells covering the same body, And the foot has a flat ax shape) are produced in two ways: natural seedling method and artificial seedling method.

As is well known, since the production of natural seedling depends entirely on the natural environment, there is a disadvantage in that it is difficult to produce stable seeds because of a large change in cholesterol according to the year of the year. Therefore, As a method for producing artificial seeds, a method of producing artificial seeds is continuously being developed, and scallops, shells, reefs, and shellfish are commercially produced as well as oysters.

The main object of the present invention is to carry out the oyster culture all over the world, and since Korea is the second largest producer in terms of production volume, domestic oysters are mostly produced in the southern coast by the method of long- In the same way, according to the method of the long-line water-feeding style, a shell oyster (with oyster shell or scallop shell) with 40 ~ And it is produced in the form of a ball.

As described above, the oysters produced by the consecutive haemophilus method were separated one by one from the tubular form at a certain time, accommodated in the positive net for a short period of time, and then stored in a half-shell or whole- And about 10% of them are cultivated in the form of individual oysters (oysters). The remainder are cultivated to the end of the harvesting time by collecting the remaining pieces in the form of tubers.

However, the production and sales method in the oval shape requires a lot of labor and has a considerable difficulty in producing high-value-added oysters. Therefore, many aquaculture companies have relatively low production costs, It has been attempting to shift to a production method of high individual oyster type. Recently, the technique of oyster culture technique using the wide tidal-flat of the west coast has been developed and oysters have been produced. The necessary seeds are 100% .

Such an oyster cultivation method as described above is made from the seedling production stage to an open type and is intermediate-cultured to an initial size speck of a certain size (about 30 mm or less), and is used as a seedspatter for the present form. In the process, it is very difficult to supply oxygen and food organisms and control the seeds. In the present invention, a water tank type bivalve breeding device is provided. However, such a breeding tank is very difficult to handle and store, And it is necessary to adapt to the growth rate and size of the water tank.

Korean Patent No. 10-0591586 Korean Patent No. 10-0906456

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a waterproofing tent material cage having a bottom surface, , It is possible to easily install and use the water pipe in the marine cage facility or the aquaculture water tank by installing the water pipe which provides the upward and downward water flow by the pumping or dropping method, It is possible to facilitate feeding of food, oxygen, and excrement easily by guiding the breeding water smoothly, and it is possible to easily change the direction of the water flow according to the size of the seeds, Of the mesh size can also be easily changed by the size of the seeds, and after the cage frame is removed, Can both folded onto the cage in the storage volume can also be minimized, to provide a downward flow of water reversible type cage prefabricated shellfish seed yangseonggi as a technical problem.

In addition, by providing a reasonable assembling structure between the cage frames, it is possible to quickly and easily carry out the disassembly and assembling work of the cage frame, and to prevent unnecessary separation of the assembled frames during the transportation and handling of the cage frame In addition, when the cages are mounted on the sea cage or on the aquaculture tank, the entire load of the bulge can be supported more safely. A plurality of positive cages are connected in series at the front end and the rear end of the water pipe Another object of the present invention is to provide a pipe connection means capable of connecting a plurality of positive cages to a plurality of positive cages at the same time by using only one pump. Superior species at a lower cost The main objective of this study is to provide a shellfish seedling which is optimized for the production of artificial seeds of bivalve, which requires mass production of single seeds such as oysters.

As a means for solving the above technical problems, the upper and lower water reversible cage assembled shellfish positive bacteria according to the present invention are manufactured in the form of a square cage having upper and lower openings by using a waterproof tent, which is a flexible material, A positive cage which is formed integrally with a lower part of the waterproof tent for communicating the habitats of the seeds and the breeding water, and a positive cage which is assembled so as to form a hexahedron frame over the inner surface of the positive cage and the upper surface of the receiving net, As a means for providing upward and downward flow by means of a pumping or falling system, provided at the upper center of the inside of the positive cage, A water pipe installed in a way that is locked to the position corresponding to the water surface of the breeding water stored in the water tank A pipe hole for installing a water pipe is formed on the front and rear surfaces of the positive cage, and a binding hole is used in the upper peripheral portion of the positive cage to connect the positive cage to the cage frame, And a water flow dispersion hole is formed at a lower end of the water flow pipe at regular intervals.

In addition, the cage frame includes a rectangular upper frame arranged along the inner periphery of the upper end side of the positive cage and connected to the positive cage by the binding binder, and a square shaped upper frame arranged along the lower inner periphery of the positive cage And a plurality of vertical frames that connect the upper frame and the lower frame to each other in a modular fashion, wherein the lower frame comprises a lower frame of the lower frame, , The vertical frame comprises a connection pipe connecting the front and rear sides of the upper frame and the lower frame and a connection frame having a left side and a right side connecting the left and right side portions of the upper frame and the lower frame, The lower end frame is provided with an assembling end portion to be inserted into the connecting pipe through the upper and lower end portions, And a reinforcing pipe into which upper and lower ends of the frame are inserted in a fitting manner are integrally formed.

As a further matter, a socket pipe and a plug pipe for connecting a plurality of positive cages in a serial manner are detachably assembled to the front end and the rear end of the water pipe, respectively, and a plurality of positive cages connected in series, Wherein the positive cage is fabricated using a tarpaulin tarpaulin material, and the capturing network is formed of a netting sheet made of a polyethylene material to form a tarpaulin tarpaulin material Is welded to the lower end of the positive cage of the cage. The mesh size of the cage is 0.2 to 30 mm.

According to the present invention as described above, it is possible to easily install and use water cage facilities and aquaculture water tanks in the sea, and to facilitate the communication of the breeding water through the immobilization nets, thereby facilitating feeding of food and oxygen, And the direction of the water flow can be easily changed according to the size of the seed paper. In addition, the mesh size of the seedling can be easily changed by the size of the seed paper by the cage separation method, and after the cage frame is used, It is effective to provide an upward and downward water reversible cage assembled shellfish positive bacterium capable of minimizing the storage volume because the positive cage can be folded in the separated state.

As a result, it is possible to mass-produce good seeds at a lower cost than the conventional ones, and to provide a shellfish seedling that is optimized for the production of artificial seeds of bivalve seeds such as oyster , It is possible to quickly and easily carry out the disassembly and assembly work of the cage frame while preventing unnecessary separation between the assembled frames during the transportation or handling of the cage frame and at the same time, In the case of hanging the positive bacterium, the whole load of the bred period can be supported more safely, and a large number of positive cages are connected in series, so that a single pumping pump can simultaneously perform the upper and lower water composition work for a plurality of positive cages It is very useful, for example It will have an effect.

1 is an exploded perspective view of a shellfish positive bacterium according to the present invention.
Figure 2 is a plan view of the combined state of Figure 1;
3 is an enlarged cross-sectional view of the main part of Fig. 2; Fig.
4 is a side sectional view showing another embodiment of the present invention.
5 is a plan view showing a state in which the shellfish positive bacteria of the present invention are installed in a cage facility.
Fig. 6 is a side sectional view of Fig. 5; Fig.

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

As shown in Figs. 1 to 3, the upper and lower water reversible cage assembling shellfish positive seedling positive and negative cage positive and negative cage positive and negative cage positive and negative seedlings according to the present invention are characterized in that a seedling cage 5 A cage frame 3 assembled to form a hexahedron frame over the inner surface of the positive cage 2 and the upper surface of the fixed net 5 to provide a support structure for the positive cage 2; , And a water pipe (4) installed at the upper center of the inner side of the positive cage (2) to provide upward and downward water flow by a pumping or dropping method.

The positive cage 2 can be easily laid along the cage frame 3 and can be easily and reliably removed from the cage frame 3 by using a flexible waterproofing tent material And the top and bottom are opened. As a typical example thereof, a Tarpaulin tent material widely used for a tent, a special wrapping paper, or a watering apparatus such as an advertisement or a boat can be cited.

The tarpaulin tent material is a product made by laminating a polyethylene film on a woven fabric made of polyethylene fibers to enhance the strength and waterproofness of the fabric. The tent material does not cause unnecessary sagging phenomenon in spite of the tent material, And the life span in the seawater can be sufficiently ensured. Therefore, it becomes the optimum material applicable to the positive cage 2 of the shellfish seed positive bacterium 1 according to the present invention.

Since the tarpaulin tent material used as the material of the positive cage 2 is made of polyethylene as described above, even in the case of the receiving net 5, a rectangular net sheet made of polyethylene is used to form the positive cage 2 made of a tarpaulin tent material It is most preferable to use the welded joint at the lower end portion and the shellfish seed positive bacterium 1 according to the present invention is used to bred seeds up to a size of about 30 mm from the time of harvesting, It is preferable that the dimension is also in the range of 0.2 to 30 mm so as to meet this requirement.

A pipe hole 2a for the installation of the water flow pipe 4 is formed on the front and rear surfaces of the positive cage 2 and a binding binder 16 is used for the peripheral edge of the upper side of the positive cage 2 A plurality of binding holes 2b for binding the positive cage 2 with the cage frame 3 are formed at regular intervals and a water flow dispersion hole 9 is formed at the lower end side of the water flow pipe 4 at regular intervals .

A reinforcing ring (reinforcement frame) made of plastic or a corrosion-resistant metallic material is provided on the inner periphery of the pipe hole 2a and the binding hole 2b so that the connection of the water flow pipe 4 with the cage frame 3 It is preferable that the cage frame 3 is made of a stainless steel frame which is a corrosion resistant metal material and that the water flow pipe 4 is made of a plastic pipe such as PVC Do.

In addition, in order to individually use the shellfish seed positive bacteria 1 according to the present invention, a discharge pipe or a suction pipe extending from the amphibious pump may be connected to one end of the water pipe 4, While the other side end of the water flow pipe 4 is in a clogged state.

When the discharge pipe of the amphibious pump is connected to the water pipe 4 or the water pipe for applying the down water pressure is connected to the water pipe 9 as described above, When the suction pipe of the amphibious pump is connected to the water pipe 4, the water is supplied through the water dispersion hole 9 of the water pipe 4 from the immobilization network 5, A bottom-up stream of inhaled water will be provided.

Accordingly, the shellfish seedling positive bacterium 1 of the present invention is installed in such a manner that the water flow pipe 4 is locked to a position corresponding to the water surface of the offshore water surface or the sea water stored in the offshore water tank on which the cage is installed, It is preferable to use a top-down water stream to grow seeds up to a size of 2 mm or less after seeding, so that the seedlings larvae corresponding to the attaching unit are not sucked into the water dispersion holes 9 of the water flow pipe 4 by the bottom-

On the other hand, it is preferable to apply a bottom-up water flow in the positive step from the size of 2 mm or more to the size of 30 mm since various foreign substances accumulated in the upper surface of the immobilizing net 5 It is preferable that the upward flow of water is more advantageous than the downward flow of water in consideration of the removal side of the water flow dispersion hole 9 ) Is preferably about 2 to 3 mm.

The cage frame 3 which is a substantial supporting structure of the shellfish seed positive bug 1 according to the present invention is disassembled and disassembled so as to firmly adhere to the inner side surface of the positive cage 2 including the bottom side receiving nets 5 And the cage frame 3 may be any type of prefabricated structure as long as it meets these conditions.

However, after using the shellfish protector 1 according to the present invention, the positive cage 2 is first peeled off from the cage frame 3, and then the positive cage 2, which is a tear material, is folded and stored, (3) It is also necessary to rationally construct a structure for disassembling and assembling the frames so as to minimize the storage volume thereof.

To this end, the cage frame 3 is arranged along the inner periphery of the top side of the positive cage 2, as clearly shown in Fig. 1, while the positive cage 2 A lower frame 11 having a rectangular shape and disposed along the inner periphery of the lower end of the positive cage 2 and a lower frame 11 extending in the horizontal and vertical directions inside the lower frame 11, And a plurality of vertical frames for assembling the upper frame 10 and the lower frame 11 in a assembled manner.

Particularly, the vertical frame includes a connecting pipe 12 (three in front and rear in the figure) connecting the front and rear sides of the upper frame 10 and the lower frame 11, Shaped connection frame 14 (two left and right sides in the figure) connecting the left and right side portions of the frame 11. The upper frame 10 and the lower frame 11 are connected to each other by a connecting pipe And the reinforcing pipe 13 into which the upper and lower ends of the connecting frame 14 are inserted in an assembled manner are formed integrally with the upper end portion 11a of the connecting frame 14 and the lower end portion of the connecting frame 14,

With the reinforcing pipe 13 and the connecting frame 14 as described above, it is possible to quickly and easily carry out the disassembly and assembly work of the cage frame 3, It is possible to prevent the unnecessary separation between the frames and to secure the strength of the left and right side frames in which the prolonged length of the positive frames 1 is increased when the positive cells 1 are hung on the marine cage facilities or the aquaculture water tank, So that the overall load of the vehicle can be supported more safely.

In addition, when the socket pipe 6 and the plug pipe 7 are detachably mounted as the connecting means between the water pipe 4 at the front end and the rear end of the water pipe 4, A plurality of positive cages 2 can be connected in series in such a manner that the plug pipe 7 is inserted through the positive cage 2 and inserted into the positive cage 2, It is possible to simultaneously perform the composition work.

4, when the plurality of positive cages 2 are connected in series, the flow pipe 4 of the positive cage 2 located at the rearmost end of the plurality of positive cages 2, as shown in FIG. 4, A sealing cap 18 is applied to the rear end portion and a socket pipe 6 or a plug pipe 7 assembled at the tip of the water pipe 4 of the positive cage 2 located on the best- It is preferable that the sealing cap 18 is also assembled with the water pipe 4 in a screw-tight manner.

1, a fastening portion 4a is formed at the front end portion and the rear end portion of the water flow pipe 4 for assembling the drinking nut 8, and the socket pipe 6, And the plug pipe 7 are assembled to the distal end portion and the rear end portion of the water flow pipe 4 by the union nut 8 so that the socket pipe 6 and the plug pipe 7 may be directly connected to the water flow pipe 4, or a fitting structure may be applied instead of the screw-fastening assembly structure.

As shown in the enlarged portion of Fig. 3, the upper frame 10 of the cage frame 3 is provided with a plurality of projections (not shown) for supporting the water flow pipe 4 more stably in the interior of the positive cage 2 The positive cage 2 itself connected to the cage frame 3 is connected to the water pipe 4 without using the pipe support 17. The water pipe 4 is connected to a pipe support 17 for hanging the water pipe 4, Of course, can be sufficiently supported.

5 and 6 show a typical application example in which the shellfish harvesting apparatus 1 of the present invention is installed in the marine cage facility 20 and the marine cage is bred. Three cryptomeria positive cells 1 are connected in series in each positive space while two positive positive spaces are formed between the positive cage 20 and the cage 20 using the support rope 19, And each shell-and-mortar positive bacterium 1 is suspended in a railing structure 22 of the rice bacterium and immersed in seawater.

In addition, the amphibious pump 30 is installed on the footrest 21 of the cage facility 20, and the two discharge pipes 33 are branched from the discharge port 31 of the amphibious pump 30, The end portion of the suction pipe 34 extending from the suction port 32 of the amphibious pump 30 is connected to the water pipe 4 of the proton pump 1 located at the front end side And each water pipe 4 is positioned just below the sea surface as shown in FIG. 6, as previously mentioned in the foregoing description.

According to the above-described method, the seawater (raised water) sucked through the suction pipe 34 in accordance with the operation of the amphibious pump 30 is supplied to the flow pipe 4 (4) of the shellfish sampler 1 via the respective discharge pipes 33 A downflow water flow is provided in which the supplied seawater is injected toward the immovable network 5 side through the water dispersion hole 9 of the water pipe 4 and conversely the suction pipe 34 of the amphibious pump 30 Is connected to the water pipe 4 of the proton pump 1 to provide a bottom water flow in which seawater around the proton pump 1 flows into the water pipe 4 through the receiving net 5.

The cage unit 20 shown in Figs. 5 and 6 is constructed such that a buoyancy pipe 25 and a foot plate 21 of the same material are assembled and installed on the basis of a connecting bracket 26 made of a polyethylene material, And a guardrail 24 consisting of a rail post 23 made of polyethylene material is mounted on the upper surface of the cage 20. This type of cage facility 20 can be used as a suspended floating structure such as a floating bridge, And the like.

In addition, the shellfish seed positive bacterium 1 of the present invention can be easily hung not only on the marine cage facility 20 but also on the aquaculture water tank, and is particularly suitable for a water tank type water tank having a long length, In addition to the method of hanging the positive bacterium (1) on the aquaculture water tank, various installation methods such as putting the boll positive bacterium (1) on the top of the bacterium can be applied with the pedestal on the bottom of the aquarium have.

As described above, the shellfish seedling positive bacterium 1 of the present invention can be easily installed and used not only in the marine cage facility 20 but also on the aquaculture water tank, It is very easy to carry out the treatment of various foreign matters including the feeding of food and oxygen for fertilizing the seeds and the excretion of the seeds by inducing smooth flow of water, that is, upward and downward flow.

Particularly, even if the simple operation of connecting the discharge pipe 33 and the suction pipe 34 of the pumping pump 30 to the water flow pipe 4 can easily change the direction of the water flow according to the size of the sprinkler, The mesh size of the immobilizing net 5 can be easily changed according to the size of the saddle and after the use, the positive cage 2 can be folded while the cage frame 3 is separated, You can.

In addition, by providing a reasonable assembly structure between the cage frames 3, it is possible to quickly and easily carry out the disassembly and assembly work of the cage frame 3, It is possible to prevent unnecessary separation between frames and to secure the overall load of the positive electrode 1 more safely when the positive electrode 1 is suspended from the marine cage facility 20 or the aquaculture water tank .

By providing the pipe connecting means capable of connecting a plurality of positive cages 2 in series in the front end portion and the rear end portion of the water pipe 4, even if only one positive pump 30 is provided, ), And ultimately, it is possible to mass-produce good seeds at a lower cost and, at the same time, to produce mass seeds such as oysters, (1) which is optimized for the production of the artificial seeds of the flowering seeds.

[0030] [33] Finally, it is to be understood that the above description with reference to the accompanying drawings is only an optimal embodiment for facilitating understanding of the present invention, and it is to be understood that the present invention is not limited to the illustrated structure It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as set forth in the appended claims.

1: shellfish positive 2: positive cage 2a: pipe hole
2b: binding hole 3: cage frame 4: water pipe
4a: fastening part 5: immobilization network 6: socket pipe
7: Plug pipe 8: Union nut 9: Water distribution ball
10: upper frame 10a, 11a: assembly end 11: lower frame
12: connecting pipe 13: reinforcing pipe 14: connecting frame
15: bottom frame 16: binding binder 17: pipe support
18: sealing cap 19: supporting rope 20: cage facility
21: foot plate 22: rail structure 23: rail post
24: guard rail 25: buoyancy pipe 26: connection bracket
30: Pumping pump 31: Discharge port 32: Suction port
33: discharge pipe 34: suction pipe

Claims (7)

In the seedling-growing period for seedling production of shellfish,
It is made as a square cage with upper and lower openings using a waterproof tent, which is a flexible material. On the bottom side is a positive cage (5) which is formed integrally with the lower part of the waterproof tent, A cage frame 3 assembled to form a hexahedron frame over the inner surface of the positive cage 2 and the upper surface of the fixed net 5 to provide a support structure for the positive cage 2, As means for providing upward and downward flow by means of a pumping or dropping method installed at the upper center of the inner side of the positive cage 2, And a water pipe (4) installed in such a manner as to be locked to a position immediately below,
A pipe hole 2a for the installation of the water flow pipe 4 is formed on the front and rear surfaces of the positive cage 2 and positive binding cigarettes 16 are used for positive Characterized in that a binding hole (2b) for binding the cage (2) with the cage frame (3) is formed and a water jetting dispersion hole (9) is formed at a lower end of the water flow pipe , Downward flow reversible cage prefabricated shellfish positive bacterium. 2. The apparatus according to claim 1, wherein the cage frame (3) is arranged along the inner periphery of the upper end side of the positive cage (2), and is connected to the positive cage (2) (10), a rectangular lower frame (11) arranged along the inner periphery of the lower end side of the positive cage (2), and an immobilization network (5) connected in the horizontal and vertical directions inside the lower frame And a plurality of vertical frames for assembling the upper frame 10 and the lower frame 11 so as to connect the upper and lower frames 10 and 11 to each other in a vertical direction. . The vertical frame according to claim 2, wherein the vertical frame comprises a connection pipe (12) connecting front and rear sides of the upper frame (10) and the lower frame (11) And a "[" shaped connecting frame 14 connecting the right and left side portions,
The upper end frame 10 and the lower end frame 11 are provided with an assembling end 10a and a lower end 11a which are inserted into the upper end frame 10 and the lower end frame 11 through upper and lower ends of the connecting pipe 12, Wherein the reinforcing pipe (13) is integrally formed with the reinforcing pipe (13). The water pipe (4) according to claim 1, wherein a socket pipe (6) and a plug pipe (7) for connecting a plurality of positive cages (2) in a serial manner are detachably attached to the front end and the rear end of the water pipe And,
Characterized in that a sealing cap (18) is applied to the rear end of the water flow pipe (4) of the positive cage (2) located at the rear end of the plurality of positive cages (2) connected in series, Type Cage Prefabricated Shellfish Positive Cage. The positive cage (2) according to any one of claims 1 to 4, wherein the positive cage (2) is fabricated using a tarpaulin tarpaulin material, and the immobilizing net (5) And the lower end of the cage (2) is welded to the lower end of the cage (2). 5. The upstream and downstream water reversible cage assembled shellfish protector according to any one of claims 1 to 4, wherein the immobilizing net (5) has a mesh size of 0.2 to 30 mm. [6] The clam shell protector as set forth in claim 5, wherein the immobilizing net (5) has a mesh size of 0.2 to 30 mm.

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