KR102449002B1 - Flounder floating egg sorting device. - Google Patents

Abstract

The present invention relates to a halibut floating egg sorting device, which induces aeration in a middle-layer floating eggs to increase a rate of floating eggs and a hatching rate of fertilized eggs and to simultaneously separate submerged eggs (live eggs). Therefore, it is possible to prevent the existing submerged eggs from affecting the egg quality of healthy floated eggs, and to increase a floating egg collection rate and fertilized egg hatching rate.

Description

Flounder floating egg sorting device.

The present invention is a sorting device capable of sorting floating eggs and sacrificial eggs of flounder, inducing aeration to mid-floating eggs to increase the fertilization rate and incubation rate of fertilized eggs, and to a flounder floating egg sorting device capable of simultaneously performing the separation of submerged eggs. it's about

The olive flounder is a benthic fish called flatfish. The body is flat and the side with eyes is covered with comb scales, and the body color is brown with milky white patterns scattered around it, and the side without eyes is white with round scales.

Halibut is a large fish that matures up to 90 cm in length. Sexual maturation takes place 2-3 years after eggs hatch, and when females grow to 40cm in length and males to 35cm in size, they can spawn and release. The number of eggs is around 4 million when the total length is 60.5 to 71.5 cm, and the gonad weight index is close to 20 in well-matured wild fish, and the weight of the ovaries reaches 400 g.

Natural spawning ovulates for 3 to 4 months, and during this period, one female lays more than 20 eggs. A small mother lays 150,000 to 200,000 eggs at one time, but a large mother lays one egg per day. It lays 1 million eggs and lays 10 to 36 million eggs during the entire spawning season.

In Korea, in the mid-1980s, wild flounder was harvested from the surrounding waters and then stored and managed in an onshore tank to produce artificial seedlings. Fertilized flounder eggs were introduced from Japan, making it possible to produce and supply a large amount of flounder seedlings. It was activated in an aquaculture system.

Since the early 1990s, as defense aquaculture stagnates due to the poor capture of yellowfin fry, the breeding facilities in offshore cages were designed to be suitable for halibut breeding and halibut were reared in offshore cages. This is mainly done in breeding systems. In order to mass-produce halibut-cultured seedlings, a method of artificial insemination by chasing and collecting mature parent fish is used. Chaeran generally includes a method of chaemoning from a natural parent fish, a method by injection of hormones, a method by natural spawning of a benign parent fish, and the like. However, chaeran and hormonal injections from natural mother fish have a lower hatching rate, so the method by natural spawning of benign mother fish is mainly used.

In order to produce seedlings by natural spawning of both parent fish, natural mother fish and artificial mother fish are first secured. Artificial live fish refers to the use of artificially produced fry by breeding and managing them to raise them as mothers. The mother fish is 2~5 years old, 40~68cm in length, 0.9~4.0kg in weight, and the possible age as a parent fish is 3 years for females and 2 years for males. The secured fish are managed in a breeding tank.

At this time, the central drainage type circular water tank is suitable for the parent fish breeding tank so that excrement and food waste can be discharged quickly by the water current, and it is stable to maintain the breeding water depth at 1.5 m or more.

The spawning period of halibut is characterized by spawning several times over about 2-3 months. Eggs laid from the mother fish are fertilized. At this time, the eggs at the initial stage of spawning are generally divided into abnormal divisions or many eggs are generated with more than one remnant, and the amount of spawning is small and the hatching rate is low. Eggs at the end of spawning are of poor quality, such as overripe eggs, so it is better to avoid using eggs at the beginning or end of spawning.

Since halibut eggs are separate paternal eggs, if they are spawned naturally, they float to the surface. When laying eggs, use a 300㎛ size net so that the eggs do not get caught in the net, and care must be taken to prevent the fertilized eggs from being impacted by the surface of the net because the flow of water is constant. Fertilized eggs collected in the net are poured into a measuring cylinder, separated and counted, and the floating eggs are washed with clean seawater and transferred to the hatching tank.

This kind of seran work is to get rid of the saran and the poor egg. Normally, it takes time for fertilized eggs to move to the nursery, and when moving, they are packaged in a plastic bag and moved, so if the eggs are not removed in advance, the water quality deteriorates during movement and even healthy fertilized eggs are damaged. Accordingly, Korean Patent No. 10-1947328 discloses a device for storing separated fertilized eggs, but the device is to prevent deterioration of egg quality of fertilized eggs. want to

Domestic Patent No. 10-1947328 discloses a collecting tank of a structure in which an outer wall of a certain height surrounds a polygonal bottom part, an inner space for storing fertilized eggs and breeding water is formed, and an upper part is opened; In the collecting water tank, at least one end of a horizontal pipe and a vertical pipe having a pipe structure are connected through a fastener, and water spraying parts forming a frame structure are spaced apart from each other at regular intervals in the upper and lower portions to be connected and installed through a vertical pipe; The connection pipe is connected to a breeding water supply pipe for supplying filtered seawater to the inside of the tank; A nesting net for storing fertilized eggs is installed inside the water spray unit frame; Disclosed is a separation device for storing brood eggs in which a drainage pipe capable of discharging breeding water is installed at the bottom of the collecting tank. In Korea Patent No. 10-1476032, when the gonad development of mackerel has been sufficiently achieved, a pellet-form luteinizing hormone-releasing hormone agonist (LHRHa) is inserted into the back muscle of mackerel to effectively induce gonad maturation, resulting in natural growth of the gonad. By inducing spawning and release in this way, it is possible to mass-produce fertilized mackerel eggs in a natural way, and the survival rate and hatching rate are improved so that the mackerel fertilized eggs are nurtured through the planned production of stable mackerel eggs using maturation induction, which enables mass production of artificial seedlings. Disclosed is a method for producing artificial seedlings. Domestic Registration Patent No. 10-2050950 discloses a growth step of growing pollack at a water temperature of 9 to 10 to enter maturity; A spawning step of growing and spawning pollack entering the maturity stage at a water temperature of 6 to 8; an egg collecting step of collecting the spawned pollock eggs; and egg management step of storing the collected pollock eggs; By including pollack, it enables artificial seed production of pollack, which was impossible to cultivate, and enables mass production by preserving pollack species and securing high-quality fertilized eggs. Disclosed is a method for cultivating pollock, including mass production and hatching methods. In Korea Patent Publication No. 10-2014-0040336, when the mother grows to a certain size and the gonads are sufficiently developed, hormones are made into pellets and inserted into the back muscles of females and males to mature the gonads through the body absorption of hormones. Disclosed is a seedling production method in which a fertilized egg is generated from the fertilized egg and the released sperm and hatched into an embryo.

The present invention is a flounder floating egg sorting device capable of increasing the fertilization rate and fertilized egg hatching rate by inducing aeration in the middle-layer floating eggs to prevent the effect of submerged eggs on the deterioration of the egg quality of healthy floating eggs, and simultaneously separating submerged eggs would like to provide

In order to achieve the above object, in the flatfish floating egg sorting device according to an embodiment of the present invention, a polygonal tank bottom is surrounded by an outer wall of a predetermined height, an upper part is opened, and a space for stocking breeding water and flatfish fertilized eggs inside. At least one separation water tank in which an additional portion is formed is installed; A breeding water supply pipe to which breeding water drained from the parent fish breeding tank or sterilized and filtered seawater can be supplied is installed in the separation tank; A nesting net having an upper opening and formed of a net of a certain height and a certain size, which enables storage of scattered fertilized eggs and separation of submerged eggs, is installed inside the breeding tank; One end is connected to the breeding water supply pipe and the other end is installed to extend vertically inside the cage, and an aeration induction pipe having a U-shape curve so that breeding water is sprayed toward the upper opening of the cage from the water layer where the middle layer floating eggs are located. It may be installed spaced apart from the floor at a certain distance to separate mid-floor and subsidence eggs.

In addition, the nesting net is formed with a length that can cover the length of the water layer in which the floating eggs of the fertilized halibut, the middle floating eggs, and the submerged eggs are located, and the upper part is opened, and the cage net is fixed to the opening of the nesting tank in the upper opening of the cage. It may be made of a fixture that can be installed.

One end of the aeration induction pipe installed inside the nesting network may be one that can aerate the middle-float eggs by spraying the breeding water toward the opening of the nesting tank and the middle-layer floating eggs among the fertilized halibut eggs.

The present invention has the effect of increasing the hatching rate by removing the submerged fertilized eggs with a high egg mortality rate and increasing the floating rate by applying aeration to the middle floating eggs.

1 shows a perspective view of a floating egg sorting device for flatfish of the present invention.
Figure 2 shows a perspective view of the flounder floating egg sorting device of the present invention.
3 shows a scattering network of the present invention.
Figure 4 shows the aeration induction pipe of the present invention.
Figure 5 shows the aeration induction pipe of the present invention.
6 shows an aeration induction pipe installed inside the collecting net.
7 shows a collecting network according to Example 1 of the present invention.
8 shows an apparatus for separating subsidence eggs according to Example 2 of the present invention.

In general, the fertilized eggs are collected from the nesting paper and the eggs are accommodated in the nesting paper to remove the immature and over-matured eggs. Afterwards, the abnormal egg-generating individuals are selected once again, and the full-scale hatching process is transferred to the parenting tank. Egg quality is affected by factors such as the age, health condition, nutritional status, strain, breeding environment, and spawning conditions of the parent fish. Since the egg quality is a paternal egg, the injury rate is a good indicator to evaluate the egg quality, and the fertilization rate is also an important indicator because it must be fertilized for individual development. In the case of a fertilized egg, it can be divided into a floating fertilized egg and a submerged fertilized egg.

An object of the present invention is to provide a flounder floating egg sorting device capable of increasing the hatching rate and removing the submerged fertilized eggs with a high mortality rate and increasing the floating rate by applying aeration to the middle floating eggs. Hereinafter, it will be described in detail with reference to the drawings related to the flounder floating egg sorting device of the present invention.

1 to 2 show a perspective view of the floating flatfish egg sorting device of the present invention. In the flatfish floating egg sorting device of the present invention, the polygonal tank bottom is surrounded by an outer wall of a tank of a certain height, the upper part is open, and a space part for stocking breeding water and flatfish fertilized eggs is formed inside the separate tank 100. One or more installations A breeding water supply pipe 200 to which breeding water drained from the parent fish breeding tank or sterilized and filtered seawater can be supplied is installed in the separation tank. A nesting net 300 having an open top and formed of a net of a certain height and a certain size, capable of storing and separating scattered fertilized eggs, is installed inside the breeding tank; One end is connected to the breeding water supply pipe and the other end is extended to the middle layer of the nesting network, and an aeration induction pipe 400 for inducing aeration to the fertilized egg by spraying breeding water is installed.

The separation water tank 100 of the present invention is formed in a structure in which the polygonal water tank bottom and the water tank outer wall formed at a predetermined height surround the water tank bottom and the upper part is opened. In addition, the separation tank is formed with an internal space in which breeding water and fertilized halibut eggs can be stored. In addition, the separation tank may be formed of a high-molecular compound such as polyethylene or polypropylene, or a material that is strong and durable against seawater corrosion such as stainless steel.

On the side of the separation tank, a breeding water supply pipe 200 that can supply seawater that has been sterilized and filtered by collecting breeding water or seawater drained from a parentfish breeding tank where parent fish management has been performed for the production of halibut seedlings extends in the longitudinal direction of the separation tank and installed

One or more supply units are installed in the breeding water supply pipe to supply breeding water in response to a collecting network installed in a plurality of separate tanks or a single separation tank, and a valve may be formed in the supply part to control the supply of breeding water. . In general, flatfish are bred in a flowing-water type, so the breeding water supplied for seedling production can be efficiently used by connecting the parent fish management tank and breeding water supply pipe.

As an embodiment of the present invention, in the separation water tank shown in FIG. 1, a single breeding water supply pipe is formed in the installation direction length of the plurality of separation water tanks in one or more separation water tanks and is installed, and the breeding water supply pipe has a single separation. One or more supply units corresponding to the water tank are formed.

The separation water tank shown in FIG. 2 has a plurality of scattering nets installed in one separate water tank and one or more supply units are installed in the breeding water supply pipe to correspond to a single scattering network, but the scattering network installed in the separate water tank and If a corresponding supply unit is formed, the present invention is not limited thereto.

3 shows a scattering network of the present invention. After hatching, if the eggs are placed in still water, they are roughly divided into the following three groups: floating eggs, mid-floating eggs, and sub-floating eggs. At this time, most of the submerged eggs are sacrificial eggs, the majority of which have become cloudy, and the middle-floating eggs are divided into transparent normal eggs and white turbid eggs. At this time, the white turbid eggs rapidly change to egg quality and eventually become sacrificial eggs. Accordingly, the nesting net 300 of the present invention is formed to a length that can accommodate three layers of floating eggs, mid-floating eggs, and subsidence eggs of the fertilized eggs.

The collecting net of the present invention is formed by forming a guard net 320 having an upper opening, and a fixture 310 in the upper opening of the guard net so that it can be fixed to the opening of the collecting tank. The length of the cage is formed to a length that can accommodate three layers: floating eggs, floating eggs, and subsidence eggs. The length is preferably formed to a length that can be deployed more than about 40 cm when deployed underwater, and is deployed in the vertical direction in the water toward the bottom of the collecting tank.

The net of the cage is formed in a size of 0.05mm to 0.3mm based on the stiff size, which is a size that can prevent the fertilized halibut eggs stored in the nesting net from escaping to the outside of the cage. In addition, the cage network may be formed so that the width converges toward the bottom of the collecting tank, this is to make it easier to collect submerged eggs.

A fixing tool is formed on the upper part of the collecting net to be fixed with a fixing frame to maintain the frame of the opening and to be fixed to the collecting water tank. In general, the fixture may be implemented as a member or a pipe to form a polygonal frame shape, and may be mounted in the collecting tank opening through the fixing device. Accordingly, the eggs that float to the top are located inside the frame, and after the eggs are separated, only the floating eggs can be collected and moved to the hatching tank.

4 to 5 show the aeration induction pipe of the present invention, Figure 6 shows the aeration induction pipe installed inside the collecting net. The aeration induction pipe 400 of the present invention is installed to extend inside the collecting net, and one end of the supply pipe connection part is connected to the breeding water supply pipe, and the other end consists of an aeration induction part that induces aeration by spraying breeding water. The guide part is installed so as to be upward toward the collecting tank opening. Accordingly, the aeration induction pipe forms a U-shaped cross-sectional side structure.

The length of the aeration induction pipe is installed so that the aeration induction part can be aerated in the water layer where the middle floating eggs are located. In the case of transparent eggs existing in the middle layer, if accommodated in breeding water flowing by aeration rather than stagnant breeding water, the hatching rate is maintained in a relatively good state, and the floating rate can be increased.

In addition, a breeding water distribution network or device formed of a fine net may be installed in the opening of the aeration induction pipe extending into the collecting net. The dispersing device first hits the fine net when spraying breeding water and induces the injection of breeding water in a wider range, while minimizing the deterioration of egg quality due to the impact caused by the injection of breeding water in the middle layer of floating eggs and at the same time floating as floating eggs. make it possible

7 shows a collecting network according to Example 1 of the present invention. A submerged egg separation device 330 is installed in the cage network of the water layer (S) in which the subsidence eggs of the nesting net according to the first embodiment of the present invention are located. The submerged egg separation device according to Example 1 of the present invention is provided with a rope capable of adjusting the width of the net along the side of the cage, and prevents the submerged eggs from mixing with the floating eggs and the middle floating eggs in the cage according to the tightening of the rope; can be separated.

Even if the aeration induction pipe sprays breeding water from the water layer where the middle floating eggs are located, the flow of breeding water can affect even the water layer where the submerged eggs are located. Therefore, the submerged egg separation device serves to prevent mixing of mid-floating eggs and saeng eggs and to separate them at the same time.

8 shows an apparatus for separating subsidence eggs according to Example 2 of the present invention. The submerged egg separation device according to the second embodiment of the present invention is installed connected to the cage in which the subsidence eggs are located, and consists of a collection frame 330a and a submerged egg discharge part 330b. The collecting frame has a funnel shape converging in width downward, and a subsidence egg discharge unit is installed at the lower part of the collecting frame. The settling egg discharge part consists of a discharge pipe through which the subsidence eggs collected by the collection frame can move, and a discharge valve that controls the discharge of the subsidence eggs that have moved to the discharge pipe.

The collection frame facilitates the collection of submerged eggs by stably fixing and forming a frame with a narrower width downward at the bottom of the cage made of flexible material. At the same time, it has the effect of discharging submerged eggs to the outside of the nesting tank, so it is possible to prevent egg quality deterioration caused by the mixing of floating and middle-floating eggs with submerged eggs.

The present invention has industrial application potential by increasing the hatching rate of fertilized halibut eggs in the production stage of halibut seedlings, thereby increasing the efficiency and production of halibut farming, which accounts for the majority of domestic aquaculture, to create profits for relevant industrialists.

100: separation tank 200: breeding water supply pipe
300: scattering net 310: fixture
320: cage net 330: submerged egg separation device
330a: collection frame 330b: subsidence egg discharge part
400: aeration induction pipe S: Saran position water layer

Claims (3)

At least one separate water tank having a polygonal water tank bottom surrounded by an outer wall of a certain height and having an open upper portion and a space for stocking breeding water and fertilized halibut eggs is installed therein; A breeding water supply pipe to which breeding water drained from the parent fish breeding tank or sterilized and filtered seawater can be supplied is installed in the separation tank;
A nesting net with an open upper portion and formed of a net of a certain height and a certain size, capable of storing scattered fertilized eggs and separating submerged eggs, is installed inside the separation tank;
The collecting net consists of a cage having an upper opening, and a fixture capable of being fixed to the opening of the collecting tank in the upper opening of the cage,
One end is connected to the breeding water supply pipe and the other end is installed to extend vertically inside the cage, and an aeration induction pipe having a U-shape curve so that breeding water is sprayed toward the upper opening of the cage from the water layer where the middle layer floating eggs are located. Flounder floating egg sorting device, characterized in that it is installed at a certain distance from the bottom to separate mid-floor floating and submerged eggs
The method according to claim 1, wherein a rope capable of adjusting the width of the net is installed in the cage network in which the subsidence eggs are located, and the floating eggs in the cage network and the middle floating eggs and the submerged eggs are separated according to the tightening of the rope,
Flounder floating egg sorting device, characterized in that the submerged egg separation device 330 is formed with a funnel-shaped collection frame whose width converges downward, and a subsidence egg discharge unit including a discharge pipe and a discharge valve through which the subsidence eggs can move. delete

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