KR102505231B1 - Water tank device for separating and collecting hippocampus fry - Google Patents

Abstract

The present invention relates to a water tank device for separating and collecting seahorse fry, and more particularly, by automatically transferring water and seahorse fry to a fry separation tank by the flow of water in a seahorse aquaculture tank, safely in the fry collection tank installed in the fry separation tank. Temporarily stored, and the temporarily stored seahorse fry and water are collected in a separate storage by removing the fry collection tank to the outside, so that the seahorse fry is simply and conveniently separated and collected in a short time without injury, and thus the normal growth of the seahorse fry. This is possible to increase the productivity of seahorses, and by forming the fry collection tank with Muller crayfish, a certain amount of the water passed through the fry separation tank can be discharged to the outside, so that seahorses fry during the preparation time for collecting seahorse fry outside. There is a feature that prevents the water from going back to the seahorse culture tank.

Description

Water tank device for separating and collecting hippocampus fry}

The present invention relates to a water tank device for separating and collecting seahorse fry, and more particularly, by automatically transferring water and seahorse fry to a fry separation tank by the flow of water in a seahorse aquaculture tank, safely in the fry collection tank installed in the fry separation tank. Temporarily stored, and the temporarily stored seahorse fry and water are collected in a separate storage by removing the fry collection tank to the outside, so that the seahorse fry is simply and conveniently separated and collected in a short time without injury, and thus the normal growth of the seahorse fry. The present invention relates to a water tank device for separating and collecting hippocampal fry, which enables increased productivity of hippocampus.

For a long time, the sea horse has been attracting people's attention for its unique body shape and unusual life history, such as males giving birth to ovoviviparous offspring. The seahorse is a bony fish belonging to the Syngnathidae along with seadragons and pipefish, and 36 species are known to inhabit the world. Five species are known in Korea: the hippocampus kuda, the spiny hippocampus (H hiatrix), the crowned hippocampus (H coronatus), the coral hippocampus (H mohnikei) and the dot hippocampus (Htrimaculatus). are inhabited

The seahorse has a tail that allows it to anchor itself to the substrate, and the head is perpendicular to the body. When swimming, it swims with its body upright, and its eyes can move and rotate independently, allowing it to see in all directions without turning its head. The outside of the body is scaleless, and female seahorses completely cover the entire body with armor made up of bony rings, while male seahorses do not have the underside of the belly around the nursery bag. Also, the bony armor serves to protect the seahorse from predators.

Seahorses reproduce in an unusual way, with males giving birth throughout their lives. During the breeding season, the female and the male mate by attaching their abdomens to each other, and at this time, the female lays eggs in a pouch (nursing bag) on the male's abdomen. From this point on, the male not only cares for and hatches the fertilized eggs, but also raises the offspring in the pouch until they grow to some extent and become independent.

When the male's stomach gradually swells and the baby seahorse matures, the male releases the baby seahorse that already has the shape of an adult.

The seahorse is in the limelight in the global ornamental fish market for its unique yet beautiful appearance and slow but graceful movement, and in China, it has been traditionally used as a medicine for various diseases ranging from asthma to impotence. In Korea's Donguibogam, it was said that the hippocampus acts on the liver and kidneys to protect yang qi and promote blood circulation, impotence caused by weak yang qi in the kidneys, enuresis, symptoms of testicular atrophy, pregnant women suffering from dystocia, the elderly and the infirm It is recorded that it is treated for mental breakdown and abdominal pain.

In particular, in the Chinese medicinal material market, consumption of seahorses reaches 250 million annually, and the price is also used as a high-quality medicine that costs from 2 million won to 10 million won per kg. Most of the seahorses consumed in China are wild-caught, and have been procured from natural collections in Southeast Asia.

However, in 2004, the 'Convention on International Trade in Endangered Species of wild fauna and flora (CITES)' designated the seahorse as an endangered species. Illegal fishing has been banned, and Southeast Asian countries are also declaring a fishing ban to preserve their own fishery resources. Seahorses, which are easily captured due to their low reproduction rate and slow swimming in nature, have been indiscriminately overfished as the market has grown, and in fact, seahorse populations in some Southeast Asian regions such as the Philippines are known to have declined by more than 70%.

However, since CITES regulates only wild products, farmed seahorses produced in aquaculture facilities are excluded from the regulation and can be used as target organisms for international trade. However, the seahorse is sensitive to the environment and has a very high mortality rate that easily causes mass mortality even in small environmental changes, and has been considered one of the difficult fish species to farm.

Currently, only 16 countries including Korea, China and Australia are farming seahorses. Research on seahorse artificial breeding has been conducted since the first artificial breeding was conducted in Guangdong Province, China in 1957, but commercial-scale aquaculture began in Australia, New Zealand and the United States in the 1990s. In particular, since 2000, as Australia has been mass-cultivating seahorses targeting big-belly seahorse (H abdominalis), 9 companies located in Australia and New Zealand have aquaculture systems capable of shipping 170,000 heads per month, and are contributing to the global ornamental fish market. and Hong Kong's herbal medicine market. In addition, workshops on seahorse aquaculture, preservation, and management are being actively conducted in China, the largest consumer of seahorses, and are entering the global seahorse farming war.

In addition, many adult seahorses grow together in the seahorse aquaculture tank, and other adult seahorses eat right next to the fry that give birth, so the fry must be separated at the same time as the birth of the seahorse fry. There is a serious problem of losing a lot of fry when they are found and separated.

However, the current technology for separating seahorse fry is separating the surviving fry by floating them with a scoop or a small bowl. This is a major cause of inability to grow normally by causing deformities (disorders) even if they survive or are fatal to the survival of fry.

In addition, the method of scooping and separating fry with water using a tool such as a small bowl or ladle has the disadvantage of requiring a lot of time and effort.

Republic of Korea Patent Registration No. 10-1773247

The present invention has been made to solve the above conventional problems,

The water and seahorse fry are automatically transferred to the fry separation tank by the flow of water in the seahorse aquaculture tank, safely temporarily stored in the fry collection tank installed in the fry separation tank, and the temporarily stored seahorse fry and water are separated from the fry collection tank to the outside. Provides a water tank device for separating and collecting hippocampal fry, which is simple and convenient to separate and collect hippocampus fry in a short time without injury by collecting them in a separate storage, thereby enabling normal growth of hippocampus and increasing productivity of hippocampus. has a purpose to

In addition, by forming the fry collection tank with Muller crayfish, a certain amount of the water passed through the fry separation tank can be discharged to the outside, so that during the preparation time for collecting seahorse fry outside, the seahorse fry are returned to the seahorse aquaculture tank with water An object of the present invention is to provide a water tank device that prevents tipping over and safely separates and collects seahorse fry without damage.

In order to achieve the above object, the present invention is a water tank device installed in a seahorse aquaculture tank equipped with a water supply pipe formed horizontally to supply water to the inner bottom surface and a drain pipe formed vertically to drain water to separate and collect seahorse fry. ,

a fry separation tank installed at the upper end of the vertically formed drain pipe to separate the seahorse fry from the seahorse aquaculture tank by allowing seahorse fry to pass into the interior together with water by the flow of water;

A fry collection tank that is detachably installed inside the fry separation tank to store seahorse fry and water passed into the fry separation tank, and discharges a certain amount of the water passed over to prevent seahorse fry from passing back to the seahorse aquaculture tank. ;

It relates to a water tank device for separating and collecting hippocampus fry, characterized in that it comprises a.

In addition, the water supply pipe of the present invention is formed horizontally on the inner bottom surface of the cylindrical seahorse culture tank to rotate in a spiral while filling the water into the seahorse culture tank, so that water comes over the top of the fry separation tank, and at the same time It relates to a water tank device for separating and collecting seahorse fry, characterized in that seahorse fry also come over the top of the fry separation tank at the same time as water.

In addition, the fry separation tank of the present invention is formed in the form of a funnel, and a through-hole is protruded at the bottom so that it is connected to the drain pipe,

An inlet hole is formed at the upper outer circumference of the fry separation tank so that water and seahorse fry come together to the inside by the rotational flow of water,

The inlet hole is formed in the shape of a comb pattern on the outer periphery of the upper part of the fry separation tank to control the rotational flow of water to reduce the inflow of seahorse fry, and seahorse fry separation, characterized in that the introduced seahorse fry safely survives, and It is about a water tank device that collects.

In addition, the present invention relates to a water tank device for separating and collecting seahorse fry, characterized in that a supporting step is formed on the inner periphery of the fry collection tank so that the fry collection tank is attached therein.

In addition, the cheer collection tank of the present invention is formed in a hemispherical shape, and a binding protrusion is formed on the top so as to be attached to the supporting jaw of the cheer separation tank,

The fry collection tank is formed of Muller crayfish and can discharge a certain amount of water passed to the fry separation tank,

It relates to a water tank device for separating and collecting hippocampal fry, characterized in that the seahorse fry and water stored in the fry collection tank are separated to the outside together with the fry collection tank and the seahorse fry are collected in a separate storage.

As described above, the water tank device for separating and collecting seahorse fry of the present invention automatically transfers water and seahorse fry to the fry separation tank by the water flow of the seahorse aquaculture tank, safely in the fry collection tank installed in the fry separation tank. Temporarily stored, and the temporarily stored seahorse fry and water are collected in a separate storage by removing the fry collection tank to the outside, so that the seahorse fry is simply and conveniently separated and collected in a short time without injury, and thus the normal growth of the seahorse fry. This has the effect of increasing the productivity of the hippocampus.

In addition, by forming the fry collection tank with Muller crayfish, a certain amount of the water passed through the fry separation tank can be discharged to the outside, so that during the preparation time for collecting seahorse fry outside, the seahorse fry are returned to the seahorse aquaculture tank with water It has the effect of preventing slipping.

1 is a cross-sectional view showing a seahorse culture tank in which a water tank device for separating and collecting seahorse fry is installed according to an embodiment of the present invention;
2 is an exploded front view showing a water tank device for separating and collecting seahorse fry according to an embodiment of the present invention;
3 is a cross-sectional view showing a water tank apparatus for separating and collecting seahorse fry according to an embodiment of the present invention.

The present invention having such characteristics will be more clearly explained through the preferred embodiments thereof.

Before describing various embodiments of the present invention in detail with reference to the accompanying drawings, it will be appreciated that the application is not limited to the details of the configuration and arrangement of components described in the following detailed description or shown in the drawings. will be. The invention is capable of being implemented and practiced in other embodiments and of being carried out in various ways. Also, device or element orientation (e.g., "front", "back", "up", "down", "top", "bottom") The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral", etc. are only used to simplify the description of the present invention and related devices. Or it will be appreciated that it does not indicate or imply that an element simply must have a particular orientation. Also, terms such as “first” and “second” are used herein and in the appended claims for descriptive purposes and are not intended to indicate or imply relative importance or significance.

Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, various alternatives may be used at the time of this application. It should be understood that there may be equivalents and variations.

1 is a cross-sectional view showing a seahorse culture tank in which a water tank device for separating and collecting hippocampal fry according to an embodiment of the present invention is installed, and FIG. 2 shows a water tank device for separating and collecting hippocampal fry according to an embodiment of the present invention. It is an exploded front view, and FIG. 3 is a cross-sectional view showing a water tank device for separating and collecting seahorse fry according to an embodiment of the present invention.

As shown in FIGS. 1 to 3, the water tank device for separating and collecting seahorse fry of the present invention is a water tank device for separating and collecting seahorse fry installed in a seahorse aquaculture tank (1), comprising a fry separation tank (10), It consists of a fry collection tank (20).

Here, the seahorse aquaculture tank (1) is formed in a cylindrical or square cylinder shape as shown in FIG. It is connected and formed horizontally on the inner bottom surface of the hippocampus aquaculture tank (1), and water is supplied and filled from the outside through the water supply pipe (2) into the hippocampus aquaculture tank (1). By being formed horizontally on the inner bottom surface of the aquaculture tank 1 and supplying water, the water is transferred while rotating in a spiral, whirlwind, or vortex form from the bottom to the top. That is, the flow of water flows in a swirling form.

In addition, the drain pipe 3 is formed vertically on the inner bottom surface of the hippocampus aquaculture tank 1 to drain the water in the hippocampus aquaculture tank 1, thereby adjusting the water level in the hippocampus aquaculture tank 1 and at the same time purifying the water. help. At this time, the upper part of the drain pipe 3 is at the same position as the water level in the prior art, but in the present invention, since the fry separation tank 10 is installed in the drain pipe 3, it is formed below the water level.

As shown in FIGS. 1 to 3, the fry separation tank 10 is installed so as to be inserted into the upper end of the vertically formed drain pipe 3, and the seahorse fry enters the inside together with the water by the flow of water. It is a tank that separates seahorse fry from the seahorse culture tank (1).

Here, the fryer separation tank 10 is formed in the shape of a funnel, and a through-hole 11 protrudes from the lower portion so as to be inserted into the drain pipe 3 to communicate, and the through-hole 11 is formed inside the fryer separation tank 10. It is also in communication with the drain pipe 3, and the water discharged from the fry collection tank 20 is transferred to the drain pipe 3 through the through hole.

In addition, an inlet hole 12 is formed at the outer circumference of the upper portion of the fry separation tank 10 so that water and seahorse fry come together to the inside by the rotational flow of water, and the inlet hole 12 is ) is formed in the form of a comb pattern on the outer periphery of the upper part. At this time, the width of the comb teeth of the inlet hole 12 is formed to a size that allows the seahorse fry to penetrate but cannot penetrate the adult seahorse.

In addition, the inlet hole 12 is formed as a long hole in the form of a comb pattern, and a plurality of inlet holes 12 are formed spaced apart from each other along the outer circumference of the cheer separation tank 10, so that the cheer separation tank 10 The water coming over hits the outer periphery of the fry separation tank 10 at high speed and comes over. At this time, the water hits the inlet hole 12 of the comb pattern and the flow rate is reduced, thereby reducing the flow rate It is possible to smoothly introduce the seahorse fry while preventing the occurrence of wounds on the seahorse fry.

In addition, the lower end of the inlet hole 12 is formed at the same position as the water level in the seahorse culture tank 1, so that water can easily pass through the inlet hole 12 by the rotational flow of water.

In addition, the cheer collection tank 20 is attached to the inner periphery of the cheer separation tank 10, that is, the support jaw 13 so that the cheer collection tank 20 is caught and does not move to the lower side of the cheer separation tank 10 ) is formed, and the supporting jaw 13 is formed long in the circumferential direction on the inner periphery of the cheer separation tank 10.

As shown in FIGS. 2 and 3, the fry collection tank 20 is detachably installed inside the fry separation tank 10 to temporarily store seahorse fry and water transferred to the fry separation tank 10, , A certain amount of the water passed over is discharged to prevent seahorse fry from passing back to the seahorse aquaculture tank (1).

Here, the fry collection tank 20 is formed in a hemispherical shape, and a locking protrusion 21 is formed on the top so as to be attached to the supporting jaw 13 of the fry separating tank 10, and the locking protrusion 21 is a cheer collection It is formed long along the outer periphery of the fish tank 20 while protruding horizontally from the upper outer periphery of the fish tank 20.

In addition, the fastening protrusion 21 of the cheer collection tank 20 is formed of an elastic material such as rubber, so that when supported on the upper portion of the support 13 of the cheer separation tank 10, the fastening protrusion 21 and The support jaws 13 are tightly compressed to prevent water from being transported therebetween.

In addition, the fry collection tank 20 is formed of Muller crayfish and can discharge a certain amount of water passed into the fry separation tank 10, and the Muller crayfish of the fry collection tank 20 is the total area of all pores and By adjusting the ratio of the cross-sectional area of the drain pipe 3, the water level of the fry collection tank 20 and the time the water stays can be adjusted.

Meanwhile, the seahorse fry and water stored in the fry collection tank 20 are collected by the user leaving the fry collection tank 20 to the outside and pouring the seahorse fry and water into a separate storage.

10: cheer separation tank 11: through hole
12: inlet hole 13: supporting jaw
20: cheerleading tank 21: fastening protrusion

Claims (5)

A water tank device installed in a seahorse aquaculture tank (1) equipped with a water supply pipe (2) formed horizontally to supply water to the inner bottom surface and a drain pipe (3) formed vertically to drain water to separate and collect seahorse fry ,
A fry separation tank (10) installed at the upper end of the vertically formed drain pipe (3) to separate the seahorse fry from the seahorse aquaculture tank (1) by allowing seahorse fry to pass into the interior together with water by the flow of water;
It is detachably installed inside the fry separation tank 10 to temporarily store seahorse fry and water passed into the fry separation tank 10, and discharge a certain amount of the water passed over so that the seahorse fry return to the seahorse aquaculture tank (1). ) It is configured to include; a fry collection tank 20 to prevent passing over,
The water supply pipe 2 is formed horizontally on the inner bottom surface of the hippocampus aquaculture tank 1 and rotates in a spiral while filling the hippocampus aquaculture tank 1 with water, so that water moves through the upper part of the fry separation tank 10. It rides over and comes in, and at the same time, the seahorse fry also rides over the upper part of the fry separation tank 10 along with the water,
The fry separation tank 10 is formed in the shape of a funnel, and a through hole 11 protrudes from the bottom so that it is connected to the drain pipe 3,
An inlet hole 12 is formed at the upper outer circumference of the fry separation tank 10 so that water and seahorse fry come over to the inside together by the rotational flow of water,
The inlet hole 12 is formed in the shape of a comb pattern on the outer periphery of the upper part of the fry separation tank 10 so that the rotational flow of water is reduced so that the seahorse fry are easily introduced and the introduced seahorse fry survive safely. A tank device for separating and collecting hippocampus fry.
delete delete According to claim 1,
A water tank device for separating and collecting seahorse fry, characterized in that a supporting jaw 13 is formed on the inner periphery of the fry separation tank 10 so that the fry collection tank 20 is attached therein.
According to claim 4,
The cheer collection tank 20 is formed in a hemispherical shape, and a binding protrusion 21 protrudes from the top so as to be attached to the supporting jaw 13 of the cheer separation tank 10,
The fry collection tank 20 is formed of Muller crayfish and can discharge a certain amount of water passed over to the fry separation tank 10,
The seahorse fry and water stored in the fry collection tank 20 are separated to the outside along with the fry collection tank 20 to collect the seahorse fry in a separate storage tank device for separating and collecting seahorse fry.

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