MD903Z - Fish spawn incubation and larvae storage device - Google Patents

Abstract

The invention relates to the field of fishery, namely to a fish spawn incubation and larvae storage device.The device, according to the invention, comprises an incubation container (1) with cover (2) and inclined bottom (3), a water supply pipe (9), mounted on the cover, drawndown pipes (5, 6), a centrifugal rotor (11) made perforated with blades (12) provided with feathers (13), an appliance (7) for placement of the spawn nest (8). On the water supply pipe (9) is mounted a device (15) for pulse supply of water, comprising a vertically placed cylindrical body (16), equipped outside with a tubular elastic membrane (17) and inside with a bullet valve (18) with a spring (19). At both ends of the cylindrical body (16) are made internal threads (20) for connection to the water supply pipe (9) and external annular grooves (21) for fixation of the tubular membrane (17) by means of fixtures (22). Along the cylindrical body (16) are made vertical slots (23) for water passage, the bullet valve (18) is placed with the possibility of closing the lower end of the cylindrical body (16), and the spring (19) is fixed with one end to the bullet valve (18), and with the other end to the inner side of the tubular membrane (17).

Description

The invention relates to the field of fish farming, namely to an installation for incubating eggs and storing fish larvae, which can be used for incubating eggs deposited on artificial nests, especially of American catfish.

The installation for incubating eggs and storing fish larvae is known, which includes an incubation container, water supply and discharge aqueducts, a device for placing eggs, a paddle mixer and an actuator, which is assembled in the form of a centrifugal rotor, mounted vertically at the inner end of the supply aqueduct, which is perforated for supplying the rotor with water, and the mixer blades are fixed to the rotor by hinges, at the same time the water supply pipe is installed with the possibility of moving in a vertical plane [1].

The shortcomings of the installation are that with uniform and unidirectional rotation of the paddle mixer above the spawn nest, it effectively cleans the surface from impurities only on the side of the paddle movement, and on the opposite side, accumulation of impurities is observed. This negatively influences the survival of the spawn and reduces the effectiveness of the installation.

The problem solved by the present invention consists in increasing the efficiency of the process of incubation of eggs and storage of larvae in the installation.

The installation for incubating eggs and storing fish larvae, according to the invention, contains a container with a lid and a sloping bottom, a water supply pipe mounted on the lid and made with the possibility of moving in a vertical plane, a water discharge pipe at the top and an exhaust pipe at the bottom of the container, a centrifugal rotor made perforated with blades equipped with bird feathers, mounted at the bottom end of the water supply pipe, under which a means for placing the nest with eggs is placed. On the water supply pipe, above the centrifugal rotor, a device for impulsive water discharge is mounted, which consists of a vertically placed cylindrical body, equipped with an elastic tubular membrane on the outside and a spherical valve with a spring on the inside. At both ends of the cylindrical body, internal threads are made for connection to the supply pipe and external annular channels for fixing the tubular membrane with the help of fasteners. Vertical slots are made along the cylindrical body for the passage of water, the ball valve is installed with the possibility of closing the lower end of the cylindrical body, and the spring is fixed with one end to the ball valve, and with the other end to the inner side of the tubular membrane.

The installation is equipped with a device for impulsive water discharge, mounted in the water supply pipe, above the centrifugal rotor which consists of a cylindrical body, a tubular membrane and a ball valve with a spring, at both ends of the cylindrical body on the outside there are annular channels for fixing the tubular membranes with the help of fasteners, and on the inside there are threads for connection to the water supply aqueduct. Along the cylindrical body there are vertical slots for the passage of water into the tubular membrane and vice versa, at the same time the ball valve is installed inside the cylindrical body with the possibility of closing the lower end of the cylindrical body and the spring with one end fixed to the ball valve, and with the other end to the inner part of the tubular members.

The technical result of the invention consists in increasing the efficiency of fish reproduction, which is due to the new constructive elements of the installation, which ensure the modeling of optimal conditions for incubation of eggs, storage of larvae and protection of nests with eggs from impurities and pollutants. Thus, the survival of eggs is increased and the number of viable larvae increases.

The installation is explained by the following figures:

- Fig. 1, diagram of the proposed installation;

- Fig. 2, device 15 (Fig. 1) in section on the central axis during the period of closing the water flow with the ball valve in the supply pipe;

- Fig. 3, device 15 (Fig. 1) in section on the central axis during the opening of the water flow with a spherical valve in the supply aqueduct.

The installation contains an incubation container 1 with a lid 2 and a sloping bottom 3, a water supply pipe 9, a water discharge pipe 5 at the top of the container, a water discharge pipe 6 at the bottom of the container, a centrifugal rotor 11 made perforated with blades 12, equipped with bird feathers 13, a means 7 for placing the nest with eggs 8, a device 15 for impulsive water discharge, a cylindrical body 16, equipped with an elastic tubular membrane 17 on the outside and a spherical valve 18 with a spring 19 on the inside, internal threads 20, external annular channels 21, fasteners 22, as well as vertical slots 23.

The installation is connected to the water supply network 4 through a valve 14 for regulating the flow of water coming into the installation.

Example of embodiment of the invention

The installation operates in the following mode.

The container 1 is filled with water and the nest with eggs 8 is placed in the middle 7 and depending on the shape and size of the nest 8, the water supply pipe 9 is adjusted using the fasteners 10, as well as the angle of inclination of the blades 12 with bird feathers 13, which should pass 3…5 mm above the eggs. After opening the valve 14, the water through the pipe 9 enters the cylindrical body 16 of the device 15 for impulsive water discharge (Fig. 2). Then through the vertical slots 23 in the cylindrical body 16, the water enters the space under the tubular membrane 17. At the same time, the ball valve 18 closes the lower end of the cylindrical body 16 and as a result of the increase in pressure, the water expands the elastic walls of the tubular membrane 17, accumulating there. As the walls of the membrane 17 expand, the spring 19 stretches and transmits the force to the ball valve 18, moving and opening the lower end of the cylindrical body 16 for the passage of water (Fig. 3). Under pressure, the water enters the centrifugal rotor 11 and begins to rotate it. At the same time, the blades 12, fixed on the rotor, with the bird feathers 13 rotating, cause microturbulence of the water, washing the eggs and partially removing impurities from the surface of the nest 8. With the decrease in water pressure, the walls of the tubular membrane 17 are compressed and the spherical valve 18 under the influence of the spring 19 returns to its initial position, closing the lower end of the cylindrical body 16. After this, the water penetration into the centrifugal rotor 11 is interrupted, but the blades 12 with the bird feathers 13 by virtue of inertia continue oscillatory movements above the eggs (imitating the movements of the fins of the breeders) removing the remains of impurities from the surface of the nest 8. After this, the cycle is repeated. The frequency and intensity of the water supply is regulated by the valve 14. During the operation of the installation, particles of impurities and dead eggs accumulate near the outlet pipe 6 and are periodically discharged. The excess water is drained through the outlet pipe 5. After the larvae hatch, the nest is removed from the installation. The larvae usually accumulate under the device 7 and their washing with water impulses is carried out through the perforated bottom. At the same time, the diseased and dead larvae, together with impurities from the inclined bottom 3 of the container, are discharged through the pipe 6 into the discharge water.

1. SU 1060158 A 1983.12.15

Claims (1)

Installation for incubating eggs and storing fish larvae, which contains a container with a lid and a sloping bottom, a water supply pipe mounted on the lid and made with the possibility of moving in a vertical plane, a water discharge pipe at the top and an exhaust pipe at the bottom of the container, a centrifugal rotor made perforated with blades equipped with bird feathers, mounted at the bottom end of the water supply pipe, below which is placed a means for placing the nest with eggs, on the water supply pipe, above the centrifugal rotor is mounted a device for impulsive water discharge, which consists of a vertically placed cylindrical body, equipped with an elastic tubular membrane on the outside and a spherical valve with a spring on the inside; at both ends of the cylindrical body, internal threads are made for connection to the supply pipe and external annular channels for fixing the tubular membrane with the help of fasteners; Vertical slots are made along the cylindrical body for the passage of water, the ball valve is installed with the possibility of closing the lower end of the cylindrical body, and the spring is fixed with one end to the ball valve, and with the other end to the inner side of the tubular membrane.