KR102535426B1 - Fish incubator. - Google Patents

Abstract

An incubation tank having a cylindrical structure with an open upper part and a hemispherical curved lower part; An inlet pipe installed in the center of the incubation tank from the outside into the lower pipe of the incubation tank or flowing into the upper opening of the incubation tank; A spray nozzle unit connected to either end of the inlet pipe is installed at the bottom of the incubation tank; A strainer frame is mounted at the top of the incubation tank to correspond to the inner diameter of the inlet pipe; By providing an artificial fish incubation device in which a discharge pipe is installed on the upper side of the incubation tank based on the installation position of the strainer frame, it is easy to install and release with a structure that can be separated from the cradle, thereby improving user convenience and fertilized eggs. Depending on the hatching method, it is possible to select top-down or down-top hatching devices, and the direction of water flow can be easily changed by replacing nozzles, enabling customized responses according to the amount and type of fertilized eggs, resulting in a stable and high hatching rate. there is

Description

Fish incubator {Fish incubator.}

The present invention relates to an artificial incubation device for fish, in which water flow and oxygen are stably supplied by a submersible pump to the inside of an incubation tank, enabling mass hatching of fertilized fish eggs, and composed of top-down and down-top methods depending on the fertilized eggs. It relates to an artificial incubation device for fish that can increase hatching rate by changing installation.

In aquatic animals, artificial incubation refers to the entire process from collecting eggs from mothers using manpower to fertilization and hatching, but it is preferable to distinguish between artificial eggs and artificial insemination.

Artificial incubation of fish eggs is an important process that gives economic benefits to farmers and gives joy to breeding lovers. In the artificial incubation of fish eggs, the hatching rate and success rate can be increased when an appropriate incubation device and hatching conditions are used for each fish species.

As such a device, various types of artificial incubation devices for fish eggs are known, and can be largely divided into three devices: an egmet and an egg tray for hatching sticky eggs, and a conical hatching device for hatching non-adhesive eggs.

Recently, in order to increase the yield of sticky eggs, methods of removing the sticky material and then hatching them in a conical hatching device are being developed, and the use of the conical hatching device is increasing.

As a representative device of such a conical hatching device, the most used as an actual aquaculture farmer and research device is McDonald's egg hatchery. The McDonald's artificial incubation device is composed of a cylindrical incubator and an inlet pipe inserted into the incubator, and the oxygen-rich water supplied to the inside of the incubator through the inlet pipe allows fertilized eggs of fish to flow while supplying oxygen to hatch the fertilized eggs. can McDonald's Ingo incubator can hatch more fish species, examples of which include salmon and carp. McDonald's incubators can evenly distribute water so that eggs can circulate smoothly and evenly.

Such an incubation device necessarily requires an external water supply and water purification device for the inflow of water having a constant temperature and appropriate water quality, and also requires a drainage device through which circulated water can be discharged.

The incubation method of fish differs depending on the type, such as the number of days required for fertilized eggs to hatch, the spawning habits of the mother, and the nature of the eggs. As for the management method of fertilized eggs, there is a constant water method that does not perform irrigation and aeration until hatching, a constant water method that weakens only aeration, and a flowing water method that weakens both water and aeration. .

At this time, air and breeding water can be sprayed inside the incubator to prevent eggs from getting tangled together. Accordingly, as disclosed in Korean Registered Patent No. 10-1572822, it is possible to prevent egg quality from deteriorating by discharging and continuously circulating water in the main body by constructing an air blowing part at the lower part of the main body of the conical incubator.

However, as described above, depending on the fish species, excessive water flow may cause damage to fish eggs, so an artificial incubation device that can easily control the flow and strength of the water flow inside the incubator is required.

In Korean Patent Registration No. 10-1572822, an artificial incubation device including a body for hatching, a cover, a filter, and an air diffuser is configured, so that it can be easily installed not only in an ornamental tank but also in a breeding company's tank, Disclosed is an artificial incubation device for fish that is excellent in appearance and can have an excellent hatching rate. Korean Patent Publication No. 10-2007-0012300 discloses a device for artificially incubating ornamental fish eggs by artificially collecting them, reducing loss of eggs and increasing the hatching rate of collected eggs compared to the case where the mother spawns and hatches them. Disclosed is an artificial incubator for ornamental fish using an underwater motor capable of obtaining a number of fry. Korean Patent No. 10-1666469 circulates the water in the incubation tank to the auxiliary tank located at the top, filters it, and free-falls the filtered water to the attachment plate with eggs at a predetermined pressure and a predetermined amount. By forming a water stream, it is possible to supply filtered water containing oxygen to the eggs attached to the attachment plate, and it is possible to create a water flow naturally to prevent impurities from adhering to the attachment plate, realizing an incubation environment similar to the natural hatching environment. Disclosed is an incubation device for type fish and a method therefor. In Korean Patent Publication No. 10-2007-0012302, in order to prevent mold and decay occurring in eggs, filtered water is introduced into the filter and passed through a water flow forming unit to continuously move the eggs to prevent mold and decay. Disclosed is an artificial incubator for ornamental fish using air bubbles capable of acquiring fry without loss through a normal incubation process.

In the present invention, in order to solve the above problem that the egg quality of fertilized eggs varies depending on the flow and pressure of the water flow, a water flow and oxygen are stably supplied to the inside of the incubation tank by a water pump, so that a large amount of fertilized fish eggs can be hatched, and according to the fertilized eggs, It is intended to provide an artificial incubation device for fish that can increase the hatching rate by changing the configuration and installation in a top-down and down-top manner.

In order to achieve the above object, an artificial fish incubation apparatus according to an embodiment of the present invention includes an incubation tank having a cylindrical structure with an open top and a hemispherical curved bottom; An inlet pipe installed in the center of the incubation tank from the outside into the lower pipe of the incubation tank or flowing into the upper opening of the incubation tank; A spray nozzle unit connected to either end of the inlet pipe is installed at the bottom of the incubation tank; A strainer frame is mounted at the top of the incubation tank to correspond to the inner diameter of the inlet pipe; Based on the installation position of the strainer frame, a discharge pipe may be installed on the upper side of the incubation tank.

A down-top artificial fish incubation apparatus according to another embodiment of the present invention includes an incubation tank having a cylindrical structure with an open top and a hemispherical curved bottom; An inlet pipe connected to the inside of the incubation tank from the outside at the bottom of the incubation tank; The upper part of the injection nozzle unit may be installed at the connection portion between the inlet pipe and the hatching tank to penetrate into the hatching tank pipe.

A top-down artificial fish incubation apparatus according to another embodiment of the present invention includes an incubation tank having a cylindrical structure with an open top and a hemispherical curved bottom; An inlet pipe connected to the bottom of the hatching tank from the upper opening of the hatching tank at the center of the hatching tank; The upper part may be made of a spray nozzle part connected to the lower end of the inlet pipe and the lower part connected to the bottom part of the incubation tank.

The fish incubation device of the present invention has a structure that can be separated from the cradle, so it is easy to install and release, thereby improving user convenience, and it is possible to select a top-down or down-top hatching device according to the hatching method of fertilized eggs. Therefore, it is possible to easily change the direction of the water flow, enabling a customized response according to the amount and type of fertilized eggs, thereby enabling a stable and high hatching rate.

1 is a fish artificial incubation device installed in the down-top method of the present invention.
Figure 2 is a fish artificial incubation device installed in the top-down (top-down) method of the present invention.
Figure 3 shows a side view of the strainer frame of the present invention.
4 and 5 show a down-top spray nozzle part according to a first embodiment of the present invention.
6 shows a connection and fixing form of the inlet pipe and the injection nozzle according to Example 1.
7 shows a down-top injection nozzle part according to Example 2 of the present invention.
8 shows a down-top injection nozzle part according to a third embodiment of the present invention.
9 shows a photograph of an actual spray nozzle part according to Examples 1 to 3.
10 shows a top-down injection nozzle unit according to a fourth embodiment of the present invention.
11 shows a top-down injection nozzle unit according to a fourth embodiment of the present invention.
12 shows a picture of an actual work of a fish hatching device fixed to a cradle.

Hereinafter, a detailed explanation will be given with accompanying drawings related to the artificial fish incubation device of the present invention.

1 and 2 show a front side view of the artificial fish incubation device of the present invention. The artificial fish incubation apparatus of the present invention includes an incubation tank 100 having a cylindrical structure with an open top and a hemispherical curved bottom; An inlet pipe 200 installed at the center of the incubation tank from the outside into the lower pipe of the incubation tank or flowing into the upper opening of the incubation tank; A spray nozzle unit 300 connected to either end of the inlet pipe may be installed at the bottom of the incubation tank.

Figure 3 shows a side view of the strainer frame of the present invention. A strainer frame 20 is mounted at the top of the incubation tank to correspond to the inner diameter of the inlet pipe. A plurality of through-holes are formed on the side of the strainer frame, and a strainer is installed in the through-holes to prevent the discharge of fertilized eggs stocked inside by the water flow formed inside the incubation tank. Based on the installation position of the strainer frame, a discharge pipe 10 is installed on the upper side of the hatching tank to discharge the breeding water to the outside of the hatching tank.

A hollow is formed on the side of the strainer frame, which is formed with a diameter through which the inlet pipe can pass through so that the inlet pipe can be installed through when the incubation device is installed in the top-down method described later.

The inlet pipe 200 is a pipe shape capable of supplying breeding water to the inside of the hatching tank, and can be connected to the spray nozzle part through a fixing part, and a ball valve is installed to control the inflow amount and supply of breeding water. .

Oxygen and water supplied into the incubation tank through the inlet pipe and the spray nozzle part generate a water flow according to the shape of the spray nozzle part and move fertilized eggs of fish. This enables generation of customized fertilized eggs, which can be widely used according to the type and amount of eggs, and can improve the hatching rate.

The fish artificial incubation device of the present invention may be installed in a top-down method or a down-top method according to the installation type of the injection nozzle unit and the installation position of the inlet pipe. The down-top method is a form in which the water flow rises from the bottom to the top and passes through the spray nozzle, and it is easy to separate and attach the cover and is advantageous in improving the hatching rate of a small amount of eggs. The top-down method is a method that can stably operate a large amount of eggs, and the water flow is generated through the spray nozzle part below by descending from the top through the lower nozzle pipe.

Therefore, the present invention can select and install two types of artificial incubation devices according to the type and amount of fertilized eggs.

1 shows an artificial incubation device for fish installed in a down-top manner according to the present invention. The down-top artificial fish incubation apparatus shown in FIG. 1 includes an incubation tank 100 having a cylindrical structure with an open top and a hemispherical curved bottom; An inlet pipe 200 connected to the inside of the incubation tank from the outside at the bottom of the incubation tank; The upper part of the spray nozzle part 300 is installed at the connection between the inlet pipe and the hatching tank so as to penetrate into the hatching tank pipe.

4 and 5 show a down-top spray nozzle part according to a first embodiment of the present invention. The down-top spray nozzle part 300 of the present invention is formed so that the lower part of the spray frame is coupled to the upper part of the hemispherical spray frame 301 and the pipe-shaped connection frame 302, the inside of which is empty and the upper part has a curved structure. .

The connection frame of the down-top spray nozzle unit may be installed through the bottom of the incubation tank to protrude out of the hatching tank, and may be connected to the inlet pipe via a fixture in the protruding connection frame.

As shown in FIG. 6, the connection and fixation of the inlet pipe and the spray nozzle according to an embodiment of the present invention is formed with a screw thread on the side of the connection frame and the fixture is implemented as a bolt so that it can be connected to the inlet pipe by screwing.

A plurality of spray holes 310 are formed on the side of the spray frame of the spray nozzle unit. Accordingly, the breeding water supplied from the inlet pipe moves to the connection frame and can be injected into the incubation tank through the spray hole of the spray frame.

The spray holes of the down-top spray nozzle unit according to the first embodiment of the present invention are formed in a rectangular shape extending in the horizontal direction and formed in multiple stages along the circumferential direction of one or more spray nozzle units at regular intervals. In addition, an inclination of a downward or upward angle is formed on the bottom or upper surface of the spray hole, so that it is possible to spray at a certain angle when breeding water is sprayed. In addition, the shape of the injection hole has an effect of enabling injection at a specific angle over a wider area.

7 shows a down-top injection nozzle part according to Example 2 of the present invention. The structure of the down-top spray nozzle unit according to Example 2 is the same as that of Example 1, but the shape of the spray hole is circular. The spray nozzle unit according to Example 2 can spray at a lower water pressure when the breeding water is supplied at the same water pressure as in Example 1, and the spray speed can be adjusted according to the diameter of the spray hole. The injection speed may be in inverse proportion to the diameter of the injection hole.

8 shows a down-top injection nozzle part according to a third embodiment of the present invention. The spray hole of the down-top spray nozzle unit according to Example 3 has a rectangular shape extending in the vertical direction and has an inclination along the side surface to form a rhombus structure on the side surface.

In addition, one or more spray nozzles are installed at regular intervals along the circumference of the upper frame and may be formed in multiple stages. The breeding water sprayed to the spray nozzle unit according to Example 3 according to the inclination may form a swirling water flow. 9 shows a photograph of an actual spray nozzle part according to Examples 1 to 3.

2 shows an artificial incubation device for fish installed in a top-down manner according to the present invention. The top-down artificial fish incubation apparatus shown in FIG. 2 includes an incubation tank 100 having a cylindrical structure with an open top and a hemispherical curved bottom; An inlet pipe 200 connected from the upper opening of the hatching tank to the bottom of the hatching tank at the center of the incubation tank; The upper part may be connected to the lower end of the inlet pipe, and the lower part may include a spray nozzle part 300 connected to the bottom of the incubation tank.

10 to 11 show a top-down spray nozzle unit according to a fourth embodiment of the present invention. The top-down spray nozzle unit 300 of the present invention has a structure in which the down-top spray nozzle unit is upside down. The top-down spray nozzle unit 300 is formed such that a hemispherical spray frame having a hollow interior and a curved lower portion is coupled to a lower portion of a pipe-shaped connecting frame. A protruding fixing frame 303 is formed on the lower side of the spray frame of the top-down spray nozzle unit to be penetrated and fixed to the bottom of the incubation tank.

The lower end of the inlet pipe extending to the bottom of the tank through the upper opening of the incubation tank is connected to the upper part of the connection frame of the top-down spray nozzle part through a fixture. Therefore, the breeding water that has moved to the inlet pipe moves from the top to the bottom, and the breeding water is sprayed from the spraying part, which is primarily sprayed to the bottom of the incubation tank and then forms a water flow to the top, enabling more indirect spraying to fertilized eggs. . Therefore, it can be said to be a more stable method of incubation of fertilized eggs.

A plurality of spray holes are formed in the spray frame in the same manner as the down-top spray nozzle unit, and the shape of the spray holes may be formed in the same manner as in Examples 1 to 3 of the down-top spray nozzle unit described above. The effect is also the same.

A plurality of fish hatching devices of the present invention can be installed on a single cradle, and FIG. 12 shows a picture of an actual work of a fish hatching device fixed to a cradle. The fish incubation device has a structure that can be separated from the cradle, making it easy to install and release, thereby improving user convenience, and replacing the incubation device in a top-down or down-top method according to the hatching method of fertilized eggs is possible. Accordingly, it is possible to easily change the direction of the water flow, enabling a customized response according to the amount and type of fertilized eggs, thereby enabling a stable and high hatching rate.

The present invention enables stable artificial incubation of fertilized fish eggs, thereby easily increasing the population of fish species that have been difficult to supply and demand for artificial seedlings, and enabling mass hatching of fertilized fish eggs, thereby improving productivity of fishermen and industrial applicability.

10: discharge pipe 20: sieve frame
100: incubation tank 200: inlet pipe
300: injection nozzle part 301: injection frame
302: connection frame 303: fixed frame
310: spray hole

Claims (7)

an incubation tank having a cylindrical structure with an open upper part and a hemispherical curved lower part; an inlet pipe connected to the bottom of the hatching tank from the upper opening of the hatching tank at the center of the hatching tank; The upper part is connected to the lower end of the inlet pipe, and the lower part is composed of a spray nozzle part connected to the bottom part of the incubation tank.
The spray nozzle part is formed by combining a hemispherical spray frame having a hollow interior and a curved lower part with a lower portion of a pipe-shaped connection frame, and a plurality of rectangular spray holes extending in the horizontal direction are formed on the side of the spray frame. becomes,
The connection frame is connected to the lower end of the inlet pipe, and the fish breeding device is characterized in that the water flow is moved from the top to the bottom of the breeding water introduced from the inlet pipe. delete delete delete delete delete delete

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