KR101947328B1 - Storage device for free-floating eggs - Google Patents

Abstract

Provided is a device for storing separated pelagic eggs of fish in a farm, which comprises an egg collecting tank in which a polygonal bottom part is surrounded by an outer wall having a predetermined height, an inner space capable of storing the pelagic eggs and breeding water is formed and an upper part is opened. In the egg collecting tank, a water spraying part, which forms a frame structure as each of at least one of a horizontal pipe and a vertical pipe having a pipe structure is connected with the medium of a fastener, is spaced at upper and lower parts with a predetermined space and connected and installed with the medium of the vertical pipe. A connection pipe is connected to a breeding water supply pipe supplying filtering seawater into the tank and an egg collecting mesh for storing the pelagic eggs is installed inside the frame of the water spraying part. At a bottom part of the egg collecting tank, a water drainage pipe for discharging the breeding water is installed.

Description

[0001] The present invention relates to a storage device for free-floating eggs,

Disclosure of the Invention The present invention relates to a method and apparatus for storing an embryo of a fish, wherein the embryo is uniformly dispersed in the embryo collection net in a water jetting unit, The present invention relates to an apparatus for separating a fertilized egg from a fertilized egg, which does not cause degradation of fertilized eggs due to exposure of the fertilized egg to the air, and minimizes the stress of the fertilized egg.

Olive flounder (Olive flounder) is a benthic fish called a mineral. The body is flat and the side with snow is covered with comb scales. The body color is scattered with milky white pattern on the brown background, and the side without snow is white with round scales.

The flounder is a large fish that matures up to 90cm in length. Sexual maturation occurs after 2 ~ 3 years after egg hatching. Females grow up to 40cm in length and male to 35cm in size. The number of laying eggs is about 4 million for the whole length of 60.5 ~ 71.5cm, and the gonad weight index is close to 20 in well-maturated live-born, and the ovary weighs 400g.

Natural spawning is carried out for 3 to 4 months, during which one female spawning more than 20 times, while a small spawner produces between 15 and 200,000 eggs per spawning, whereas one large spawner is 100 per day It spawns in full bloom and lays 10 to 36 million eggs during the whole spawning season.

In Korea, the flounder culture was carried out in the mid-1980s, after the wild flounder was harvested in the surrounding waters. The flounder was cultivated in the aquaculture tank to produce artificial nursery, and the flounder embryo was introduced in Japan to produce and supply a large amount of flounder nursery. It was activated in the aquaculture system.

In the early 1990s, as the defense style was stagnated due to the deficiency of the protective fingers, the flounder was raised in the marine cage by devising the marine cage as suitable for the flounder breeding. Recently, however, It is mainly done in the breeding system. In order to produce a large quantity of flounder cultured seedlings, mature broodstock are collected and cultured for artificial fertilization. Chlamination is generally carried out by natural broodstock, by hormone injection, by natural spawning by positive broodstock, and the like.

The method of raising from the natural parent is done by abdominal pressure from the child who is put on the fixed net, the winning streak, etc., only in the area where the infant is caught in large quantity in the spawning season. The abdominal compression is a method in which a plurality of persons are held and fixed on a horizontal plane covered with a cloth, and then one person pushes the body of the child in one direction and squeezes eggs to collect.

However, since the external temperature during the operation is different from the temperature of the rearing water during the operation, the stress of the fish body is increased, so that the quality of the fish is damaged and the process of collecting is troublesome and inefficient. It is not only difficult, but it is low in hatching rate.

The method of hormone injection is a method of injecting a hormone that promotes ovulation and maturation when the mature brood captured in the spawning season is not spawning, and then subjecting it to full maturation for 1 to 2 days to effect artificial fertilization.

The method by natural spawning of the positive parent is good for the healthy spawning by accepting the spermatozoa in the aquarium and cultivating for a long time, then natural spawning method. . In the initial egg laid by the above method, eggs are generally divided into abnormal eggs, egg shells, egg shells, egg hatching, and hatching rate. Eggs at the end of spawning should not be used early or at the end of spawning season because they have a bad egg quality. It is recommended that full-scale harvesting for the production of seedlings should be carried out 5 to 7 days after the start of spawning and when the percentage of normal eggs is high.

Mandarin is about 0.94 ~ 0.98mm in diameter, and has one egg. The incubation time varies depending on the water temperature and takes about 48 hours at 18 ~ 20 ℃. The hatching larvae begin to form on the dorsal part of the back of the head about 10 days and grow to 6 long spines by about 20 days, of which the fourth to fifth is particularly long. When the water temperature is around 18 ℃, about 30 days after hatching, the body becomes about 11mm in size. As the left and right symmetry type is deformed, the right eye moves to the left along the dorsal line of the head and about 35 days after hatching When it becomes about 14mm in length, the transformation ends.

The eggs of flounder are separated from each other because they are separated from each other. At this time, both artificially and spontaneously scattered eggs are stored and stored in order to remove the saran and remove the stray eggs. In case of fertilized eggs, it takes time to move to the nursery, and when moving, it is wrapped in a plastic bag. In transporting, it is necessary to have a device to prevent water quality and discoloration even when embryo is stored.

As shown in FIG. 1, the inventors of the present invention have made an apparatus for storing separated sub-parenchyma. In general, the eggs are installed in the egg collection tank with the internal space of a certain size and the aeration is installed in the lower part of the egg yolk so that the air is sprayed from the bottom to the top. At this time, the saran is discharged to the drain pipe provided at the bottom of the working tank. In addition to the above-mentioned jar, a device capable of separating the bovine bran and the saran is disclosed in Korean Patent No. 10-1815487, Discloses artificial seed production methods using mature induction of mackerel capable of mass production of artificial seeds. However, the above-mentioned prior art discloses an apparatus for separating bupivacaine and saran more safely due to the exchange of water between the present invention and species of the present invention It differs from the configuration.

Korean Patent No. 10-1815487 discloses a method for the production of (a) a step of transporting hybrid embryos of Brown japonica and Dae Wang Bari in a shipping container using seawater and oxygen; (b) separating the eggs that float on the upper layer by flooding the transported embryos in seawater; And (C) introducing eggs floating in the upper layer into a hatching tank. Korean Patent No. 10-1476032 discloses a method for producing mackerel embryos. When the germination of mackerel is sufficiently developed, a pellet-shaped luteinizing hormone-releasing hormone agonist (LHRHa) is inserted into muscle such as mackerel, By inducing maturation and inducing naturally inflating and deflating, mackerel embryos can be mass produced in a natural way, and survival rate and hatching rate are improved, so that they can be produced through the planned production of stable mackerel embryos to produce large-scale artificial seedlings Discloses an artificial seed production method using mature induction of mackerel. Korean Patent No. 10-1262626 discloses a conventional seed production method which requires a skilled technique, a lot of manpower and a large amount of glass plates in order to modify the egg yolk having the property of sticking to water Discloses a method of hatching using avian embryo decolonization for the safe and easy production of yellow walnut seeds. Korean Patent No. 10-1448420 discloses that a working table is formed of a material having a high thermal conductivity at the time of physiological measurement of a fish body to supply the aquaculture water into the frame of the workbench, A plurality of supporting frame frames having a predetermined length so as to collect and accumulate the collected eggs on the floor of the working unit by being maintained at a predetermined temperature, a working table body having a predetermined area is supported by a supporting frame frame above the supporting frame, On one side of the body or the support frame, a breeding water supply hole is formed to supply the breeding water of the aquaculture farm, and a breeding water discharge hole is provided on either side of the workbench body, And to keep the temperature of the work platform constant. It discloses about the land form enteric bench for the production of fertilized eggs.

In order to solve the problem that the hatching rate is reduced due to the lowering of the quality of the eggs due to the flow of the buoyant eggs to the egg yolk by the aeration generated in the aeration tank installed in the ordinary egg collection tank or the proper water is not supplied to the eggshell surface, , And to provide a storage device for the separated bulbous eggs in which water is uniformly dispersed in a fertilized egg screening net in a water jetting unit installed at a predetermined distance in the vertical direction of the lower part.

The present invention relates to an apparatus for storing separated subbing eggs in which a bottom portion of a polygon is surrounded by an outer wall having a predetermined height and an inner space is formed in which the subbing eggs and the breeding water can be stored and the upper portion is opened; Wherein the water collecting water tank is connected to at least one of a horizontal pipe and a vertical pipe of the pipe structure via a vertical pipe at a predetermined interval on a lower portion of the water jetting unit, The connection pipe is connected to a breeding water supply pipe for supplying filtration seawater into the water tank; Wherein the water jetting frame is provided with a turbulent net to store the sub-turbulence column therein; And a drain pipe capable of discharging the breeding water may be installed on the bottom of the detention tank.

The water jetting part is composed of an upper water jetting frame provided on the upper part and a lower water jetting frame provided on the lower part. On the side surface, a jetting hole, have.

In the present invention, breeding water is sprayed upward in the lower part of the water tank, and the breeding water is sprayed from the upper part to the lower part on the water surface, so that the breeding water is exchanged in the upward and downward directions, It is possible to prevent deterioration of the quality of the oyster as the oyster is dried due to insufficient supply of water. In the lower water injection mold, the water is injected from the lower part to the upper part, and the force for lifting up the water is sprayed from the water spray frame of the upper water part, so that the force that the water is raised from the upper part to the lower part is formed, In addition, while the surface water temperature and bottom water temperature of a conventional water-collecting tank are increased or decreased by variations in the atmospheric temperature, the present invention continuously generates water in the upward and downward directions, There is little temperature fluctuation and the effect of preventing the degradation of the quality of the drying due to the contact with the air and the lack of sufficient water supply to the egg surface is prevented.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a plan view and a side cross-sectional view of a conventional detached sub-column storage device.
Figure 2 shows a top view of an apparatus for storing separated subbasic arrays of the present invention.
Fig. 3 shows a side view of an apparatus for storing separated subbasic arrays of the present invention.
Fig. 4 shows a photograph of the separated sub-porous column storage device of the present invention.
FIG. 5 shows a photograph of the separated sub-porous column storage apparatus of the present invention.

The eggs of flounder are separated from each other because they are separated from each other. At this time, both artificially and spontaneously scattered eggs are stored and stored in order to remove the saran and remove the stray eggs. In case of fertilized eggs, it takes time to move to the nursery, and when moving, it is wrapped in a plastic bag. In transporting, it is necessary to have a device to prevent water quality and discoloration even when embryo is stored.

The collection of normal eggs is carried out together with the water in the surface layer so that the embryos are gathered in a separately installed egg collection box. Use a mesh of about 300 μm so that the eggs do not get caught in the mesh, and keep the flow of water constant so that the embryo is pushed to one side of the screen and does not receive impact from the screen.

The embryos collected in the net are poured into a measuring cylinder, separated from the floating egg and the soaking egg, and then the egg is washed with clean seawater and transferred to the incubator. The fertilized egg count is calculated as 1,300 to 1,600 eggs per gram without water.

As shown in FIG. 1, the inventor of the present invention has developed and used a separation sub-column storage device. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a plan view and a side cross-sectional view of a conventional detached sub-column storage device. The conventional detached sub-column storage device is provided with a confluent water tank 10 capable of storing scattered embryos and filtered seawater, a confluent network 20 for storing an embryo formed with a mesh of a predetermined height and a predetermined size, An air stone 50 is installed in the lower part of the confining water tank to generate air bubbles upward and a breeding water supply pipe 30 is installed on the side of the confinement water tank, Is installed.

In the conventional apparatus shown in FIG. 1, as the number of contact with the grating network increases due to the convection caused by air bubbles generated in the air stone, the grids are attracted to the grating net and exposed to the air, In addition, the hatching rate is reduced.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to specific configurations and accompanying drawings.

Fig. 2 shows a plan view of the separated sub-porous column storage device of the present invention, and Fig. 3 shows a side view. The present invention relates to a separation bag column storage apparatus comprising: a blast water tank (10) having an outer wall with a predetermined height at the bottom of a polygon and having an inner space in which a bore column and a breeding water can be stored; A water spray part (60) having one or more ends connected to each other through a fastener is installed at the upper and the lower part of the jigging water tank.

A connecting pipe 61 connecting the water spraying portions of the upper and lower layers may be connected in a vertical direction and a breeding water supply pipe 30 may be connected to the connecting pipe to supply filtered seawater into the water tank. In the inside of the water jetting frame, a bulkhead 20 for storing a sub-column is installed; A drain pipe (40) capable of discharging the breeding water may be installed on the bottom of the detention tank.

The grating water tank 10 may be formed of a polymer compound such as polyethylene or polypropylene or a material resistant to seawater corrosion such as stainless steel and having excellent durability. The sterilized or filtered seawater and the sub-culture are stored in the sludge tank.

The term " fertilized egg " referred to in the present invention refers to an artificially fertilized spermatozoa, which can be stocked at a ratio of 1 to 50 fertilized eggs per 1 ml of the stock. The temperature of the raising water stored in the egg collection tank should be maintained at 13 ~ 20 ℃.

As an embodiment, a method of applying an artificial force to a fish body after using a sponge or a cloth and putting the siblings to be filled in on a workbench is used. The spermatozoa were carried out 5 to 7 days after the start of spawning.

The confinement net 20 is a cage net structure having an open upper part and is installed so as to be developed to a depth of 40 cm in the direction of the vertical bottom direction from the water surface. The mesh of the grating network is formed to have a size of 0.05 mm to 0.3 mm on the basis of the stiffness, thereby preventing the sub-hulls stored in the cage from escaping.

The water jetting section 60 has a pipe structure of a predetermined length and is connected to one or more end portions in the transverse direction and the longitudinal direction through fastening holes to form a closed frame structure. The fastener has a structure in which a pipe can be fitted and fixed, and facilitates installation of the water jetting portion. A water supply pipe for supplying filtered water to the inside of the pipe is connected to one side of the water injection part of the upper and lower layers. When the water injection parts of the upper and lower layers are not connected to each other by the connecting pipe, the feeding water supply pipe may be separately connected to the upper and lower layers. In this case, it is possible to individually control the supply of the breeding water in the upper layer and the lower layer, so that it is possible to effectively control the water movement of the buoyancy column.

The water jetting part is installed vertically spaced apart from the upper part and the lower part, and the water jet part provided on the upper part is provided on the water surface and the distance from the water jet part provided on the lower part is preferably 30 to 70 cm. The position where the lower water jetting portion is installed is a suitable water level because oxygen can be supplied to the water tank at a water pressure enough to prevent shaking of the suburban column during the hatching which is located on the water surface.

The spray holes formed in the upper water jetting section clean the collected buoyant blanks while the collected blanks are gathered at the center without being deflected to the edge by the water flow, and the jet holes of the lower water jetting section move the buoyant blanks to the water surface. When the bulbous eggs come into contact with the bullion nets, the existing bulbous bulbs are impacted by the water from the network surface as they come into contact with the edges of the bullion nets by the water current, and the egg quality is lowered and the hatching rate is decreased.

However, the water jetting part of the present invention surrounds the side surface of the mold and prevents the formation of water flow in a specific direction by forming at least one through hole, while collecting the sub-horny areas together at the central part rather than the edge, can do.

The upper water jetting portion and the lower water jetting portion are connected and fixed via a vertically installed connecting pipe 61. In addition, the connection pipe is connected to a breeding water supply pipe (30) for supplying breeding water containing a predetermined water pressure from the outside, and the breeding hole formed in the water breeding part can be sprayed with a constant water pressure. A drainage pipe (40) is installed at the bottom of the confinement tank. The drainage pipe discharges the contaminated water generated during the washing of the sub-column to the outside of the tank.

FIGS. 3 to 4 show photographs of the apparatus for separating sub-porous column according to the present invention. The side surface of the water jetting part is formed at regular intervals to surround the side surface so that the breeding water can be sprayed toward the inside of the water jetting frame structure. The diameter of the water jetting part is 25 to 35 mm and the diameter of the through hole is 1.5 to 5 mm, and the water jetting is performed at a density of 12 to 25 balls / m. The jetting water jetting amount is 4 to 10 liters per minute The water pressure is adjusted so that the breeding water is sprayed.

The horizontal position of the spray hole is such that even-numbered through holes and odd-numbered holes are alternately arranged in the upper and lower portions of the pipe relative to the inner diameter cross-section of the water jetting portion, and the spray holes are arranged in the upper- And the through holes formed at the lower portion of the water jetting pipe have a predetermined angle so that they can be injected in the upward direction, and the lower water jetting portion It is possible to prevent the contact between the bubbling column and the bubbling column due to the convection of the water in the upper part and the breeding water in the upper part and lower part.

In addition, while the surface water temperature and the bottom water temperature of a raising water in a conventional turbulent water tank are increased or decreased depending on the variation of the atmospheric temperature, the present invention continuously changes the water temperature in the upward and downward directions, It is possible to prevent the contact of the sub-culture column with the air and the decrease of the quality of the food due to the drying due to insufficient supply of water to the egg-laying surface.

By increasing the hatching rate by preventing the degradation of egg quality of the flounder embryos, it becomes possible to produce mass seedling which is the basis of the flounder culture. Therefore, it is possible to use it industrially because it can enhance the national competitiveness by increasing the profits of the flounder farmers and improving fisheries technology.

10: Retention tank 20:
30: Breeding water supply pipe 40: Drain pipe
50: air stone 60: water spraying part
61: connecting pipe

Claims (3)

A lattice water tank having a structure in which a bottom portion of the polygon is surrounded by an outer wall having a predetermined height and an inner space is formed in which the borehole and breeding water can be stored and the upper portion is opened;
Wherein the water jetting unit is formed at a predetermined distance in the vertical direction on the upper layer and the lower layer, the water jetting unit forming a frame structure in which at least one horizontal pipe and a vertical pipe are connected to each other through a fastener in a plan view, The part is formed on the water surface of the rearing water of the water tank,
And a breeding water supply pipe (30) for supplying filtration seawater to the inside of the pipe is connected to one side of the water jetting part (60) of the upper and lower layers to supply breeding water, and the water dispersing part Injection holes capable of injecting water in the horizontal direction are formed at regular intervals,
The horizontal position of the spray hole is such that even-numbered through-holes and odd-numbered holes are alternately arranged in the upper and lower portions of the pipe relative to the inner diameter cross-section of the water jetting portion and the spray holes are alternately arranged in the through- The water jetting water streams of the through holes arranged in the water jetting part are intersected with each other in the X-shape, the through holes formed in the lower part of the water jetting part have a certain angle so as to be sprayed upward,
Wherein the upper and lower layer water jetting portions are provided with an inner side space in which a bulging net is stored, And a drain pipe capable of discharging the breeding water is installed in the bottom of the water- delete delete

Images