MD1112Z - Installation for incubation of fish eggs in watercourse conditions - Google Patents

Abstract

The invention relates to the field of fish breeding, namely to installations for incubation of fish eggs in watercourse conditions, and can be used for incubation of bathypelagic or separated fish eggs.The installation, according to the invention, comprises a rectangular raft (1) with a triangular rod (15) with a ring (16) for securing a rope (17). Inside the raft (1) are mounted with the possibility of free rotation around its central axes no more than six incubation containers (2). Each container (2) comprises a cylindrical body, on the ends of which are fixed cylindrical safety nets and cylindrical covers with slits, axial pins and S-shaped blades. The plant also comprises a device for assuring the oscillating transverse movements of the raft (1) in watercourse conditions, which comprises a vertical frame (22), fixed on the side walls (12) of the raft (1), and a balancing system, consisting of a horizontal cylinder (25), a bearing, a tube section (27) of square cross-section with a horizontal rod, a horizontal bar (30) of square cross-section with curved downwards ends and parabolic rectangular blades (32).

Description

The invention relates to fish farming, namely to installations for incubating fish eggs under water current conditions, and can be used for incubating bathypelagic or detached fish eggs.

A floating installation for incubating fish eggs is known, consisting of a wooden box, the base of which is truncated and covered with a metal mesh, and a filter. The installation also contains interconnected devices, placed inside the floating platform, installed in the river on the water current [1].

The disadvantages of this installation are insufficient mixing of the eggs and the lack of the possibility of automatic cleaning of the filter surface from impurities.

There is also known a fish roe storage and incubation installation, which contains an incubation container with a rigid structure, the walls of which are made of wire mesh, and covers with locking mechanisms. The container is a drum, the casing of which has side walls with slots. A fairing with slots and blades is fixed on the front wall of the drum. The fairing is movably fixed on the shaft, and a fixing cable is fixed to it through a bearing [2].

The disadvantages of this installation are that when the container with the embryonated eggs rotates in the water current, their fine membranes are traumatized by the mesh walls; the flow of water passing through the slots in the side walls of the container (during its rotation in the water current) transports the eggs to the wall behind the cylinder, thus forming conglomerates; sampling the eggs from the container with the help of a spoon in most cases causes their trauma.

The problem solved by the invention consists in increasing the effectiveness of the incubation process of bathypelagic or detached eggs in the installation under water current conditions.

The installation for incubating fish eggs under water current conditions, according to the invention, eliminates the above-mentioned disadvantages by containing a rectangular raft, which includes side walls, upper and lower spacer plates and a triangular rod with a ring for fixing a rope, also in the walls, in their upper part, vertical slots and holes for the passage of water are made in pairs; inside the raft, at most six incubation containers are installed, each including a cylindrical body, on the ends of which cylindrical safety nets are covered, and above them cylindrical covers with slots, axial rods and S-shaped blades, coaxially fixed on the front side of the covers, at the same time the covers and nets are rigidly attached to the body by means of annular gaskets, placed in the annular grooves, made on the inner cylindrical surface of the covers and on the outer surface of the body; the containers are installed with the possibility of free rotation around their central axes by means of rods, placed in the slots in the walls of the raft, which are closed from above with plates; a device for ensuring transverse oscillatory movements of the raft under water current conditions, which includes a vertical frame with horizontal supports, rigidly fixed to the side walls of the raft, and a balancing system, which consists of a horizontal cylinder, fixed perpendicular to the frame at its center, a bearing, fixed inside the cylinder, a quadriform pipe segment with a horizontal rod on one side, the rod being fixed inside the bearing, a quadriform horizontal bar with its ends bent downwards, mounted with the possibility of movement inside the pipe segment and its fixation after balancing by means of a screw, at the same time, parabolic rectangular blades are fixed to the bent downwards ends of the bar.

The advantages of the invention consist in increasing the efficiency of fish reproduction due to the new constructive elements of the installation, ensuring the modeling of optimal conditions for incubation of embryonated eggs of fish species with a sensitive membrane and their protection from trauma which, consequently, leads to an increase in the vitality of the embryonated eggs.

The invention is explained by the drawings in Fig. 1-6, which represent:

- Fig. 1, installation, top view;

- Fig. 2, installation, side view;

- Fig. 3, the installation, front view in section on the axis А-А (see Fig. 1);

- Fig. 4, the incubation container, front view in section on the central axis;

- Fig. 5, incubation container, side view;

- fig. 6, the device for ensuring transverse oscillatory movements of the raft under water current conditions, side view in section on the central axis.

The installation for incubating fish eggs under water current conditions contains a rectangular raft 1, inside which are installed the incubation containers 2, which consist of a cylindrical body 3 and cylindrical covers 4 with slots 5, S-shaped blades 6, axial rods 7, nuts 8, annular grooves 9, annular gaskets 10 and cylindrical safety nets 11. The raft 1 consists of a pair of side walls 12, upper spacer plates 13 and lower 14, a triangular rod 15 with a ring 16 for fixing the rope 17. In the walls 12 in their upper part, vertical slots 18 are made in pairs for installing in them by means of rods 7 the containers 2, closed at the top with plates 19, as well as holes 20 for the passage of water through the slots 5 of the caps 4.

In the center of the installation is fixed the device 21 for ensuring the transverse oscillatory movements of the raft 1 under the conditions of the water current, which includes the vertical frame 22 with the horizontal supports 23, rigidly fixed to the side walls 12 of the raft 1 with the screws 24, and the balancing system, consisting of the horizontal cylinder 25, fixed perpendicularly to the vertical frame 22 at the bottom on its center, the bearing 26, fixed inside the cylinder 25, the quadriform pipe segment 27 with the horizontal rod 28, fixed inside the bearing 26 with the nuts 29, the quadriform horizontal bar 30, with the ends bent down 31, mounted with the possibility of movement inside the pipe segment 27. The rectangular blades 32 have a parabolic shape and are attached to the ends 31 of the bar 30. For fixing the bar 30 after To balance the system, screw 33 is installed in pipe segment 27.

Examples of embodiments of the invention

Before starting work, the device 21 is adjusted to ensure the oscillatory movements of the raft 1 transversely to the water flow. For this purpose, the rod 28 of the pipe segment 27 is inserted into the bearing 26 and fixed with the help of nuts 29. Then, by moving the bar 30 inside the pipe segment 27, upon reaching equilibrium, the position of the bar 30 inside the pipe segment 27 is fixed with the screw 33. After this, the raft 1 is launched onto the water and fixed with the shortened rope 17, so that the walls 12 are submerged up to their upper edge.

Next, at one end of the body 3, the net 11 is put on, which is fixed with the gasket 10 in the groove 9 of the body 3, and the cover 4 is put on top of the net 11, until its groove 9 overlaps with the gasket 10 on the body 3. Then, the container 2 is immersed vertically in water with the open side up, after which the embryonated fish eggs are loaded and the second net 11 and the cover 4 are put on, as described above. After this, the container 2 with eggs is placed inside the raft 1, inserting the rods 7 into the slots 18 and fixing them with the plates 19 to avoid vertical displacements. This operation is repeated with all the containers 2, after its completion the raft 1 is released on the water current, lengthening the rope 17 and, at the same time, putting the device 21 into operation. For this, the bar 30 is removed from the equilibrium position and one of the blades 32 is immersed in the water (position 32(a) in Fig. 3), which, being parabolic, is maintained due to the water pressure in the submerged state. As a result, due to the appearance on the sides of the raft 1 of the difference in the intensity of the water flow, it begins to move transversely to the water current in the direction opposite to the blade 32, submerged until the moment when the walls 12 block the water current, which acts on the submerged blade 32. Under these conditions, the paddle 32 is no longer held in the submerged state by the water pressure and the bar 30 begins to return to the horizontal position, at the same time due to its own inertia it passes the equilibrium phase and tilts in the opposite direction. Thus, the lower edge of the other paddle 32 touches the water and under its pressure, due to its parabolic shape, is immersed in the water, where it remains. As a result, due to the appearance on the sides of the raft 1 of the difference in forces of the water flow, the raft 1 begins to move transversely to the water current in the opposite direction to the submerged paddle 32, until the walls 12 cover the water flow, which acts on the submerged paddle 32, in this way the process of undulating movement of the raft 1 is repeated.

The containers 2, which are located inside the raft 1, rotate around their central axes due to the blades 6 on the covers 4. Thus, the eggs in the containers 2, located in the water, are maintained in a suspended state. Due to the undulating movements of the raft 1, water periodically enters the containers 2, consecutively from one edge to the other, passing through the slots 18 and the holes 20 in the walls 12, then through the slots 5 in the covers 4 and the mesh 11 inside the body 3. This allows maintaining optimal conditions for incubation of the eggs and ensures automatic removal of impurities from the meshes 11.

1. Chernyaev Zh. A., Kovalenko V.I. Methodical instructions on collection and storage of whitefish roe at temporary fishing points, its transportation and incubation. Moscow, МРХ СССР, ИЭМЭЖ, 1987, p. 30

2. RU 2192741 C2 2002.11.20

Claims (1)

Installation for incubating fish eggs under water current conditions, which contains a rectangular raft (1), which includes side walls (12), upper (13) and lower (14) spacer plates and a triangular rod (15) with a ring (16) for fixing a rope (17), also in the walls (12), in their upper part, vertical slots (18) and holes (20) for the passage of water are made in pairs; Inside the raft (1) there are installed at most six incubation containers (2), each including a cylindrical body (3), on the ends of which are covered with cylindrical safety nets (11), and above them cylindrical covers (4) with slots (5), axial rods (7) and S-shaped blades (6), coaxially fixed on the front side of the covers (4), at the same time the covers (4) and nets (11) are rigidly attached to the body (3) by means of ring seals (10), located in the ring grooves (9), made on the inner cylindrical surface of the covers (4) and on the outer surface of the body (3); the containers (2) are installed with the possibility of free rotation around their central axes by means of rods (7), located in the slots (18) in the walls (12) of the raft (1), which are closed from above with plates (19); a device (21) for ensuring transverse oscillatory movements of the raft (1) under water current conditions, which includes a vertical frame (22) with horizontal supports (23), rigidly fixed to the side walls (12) of the raft (1), and a balancing system, which consists of a horizontal cylinder (25), fixed perpendicularly to the frame (22) on its center, a bearing (26), fixed inside the cylinder (25), a quadriform pipe segment (27) with a horizontal rod (28) on one side, the rod (28) being fixed inside the bearing (26), a quadriform horizontal bar (30) with the ends bent down (31), mounted with the possibility of moving inside the pipe segment (27) and fixing it after balancing by means of a screw (33), at the same time at the ends bent down (31) of the bar (30) are fixed rectangular parabolic blades (32).