MD1674Z - Universal mobile fish-breeding complex - Google Patents

Abstract

The invention relates to fish farming, in particular to universal mobile fish-breeding complexes, and can be used for breeding fish with different breeding ecology in river and lake conditions.The complex, according to the invention, comprises a floating dock, wherein are placed a spawner capture system, a fish spawning system and a spawn collection and incubation system. The spawner capture system consists of a spawner collection compartment (16) and a spawner dislocation device, made in the form of a net trap, and is equipped with physical radiation sources (22). The fish spawning system comprises a cylindrical pool (23) with species-specific artificial substrates (35) and a conical bottom (24) with a central drain hole (25), wherein is fixed a vertical perforated drain pipe (26), and compartments with screw engines (28, 28a and 28b). The spawn collection and incubation system comprises a rectangular basin (41), wherein are placed in rows spawn collection and incubation containers (46a and 46b), and a laid spawn collection device.

Description

The invention relates to fish farming, in particular to universal mobile complexes for fish reproduction, and can be used for the reproduction of fish with different reproductive ecology in the conditions of rivers and lakes.

A fish breeding installation is known, made as a floating dock with sides and two longitudinal perforated walls, forming two tanks for incubation of eggs in the form of channels and transverse partitions, located in the station tray between the walls, with the formation between them of tanks for growing larvae and fry and a tank for storing the breeders. In the front part of the floating station are mounted a grid for retaining impurities and submersible units with direct flow of water pumping. The optimal amount of water is supplied to the tanks and the process of reproduction of economically valuable fish is carried out from the fertilization of eggs to the production of fish fry [1].

The disadvantage of the facility is that it is not suitable for breeding fish with different breeding ecology. Attracting breeders to the facility using only water current is inefficient, especially for wild fish species. Sorting leads to stress, trauma and loss of reproductive capacity in part of the breeding stock. The fish breeding facility can be used only once, because the mechanization of other processes creates noises that scare the breeders.

The closest in terms of technical essence and the result obtained is the mobile installation for the reproduction of pelagophilous fish, which contains a floating dock, equipped with a grid for retaining impurities and submersible direct-flow pumps, in which a system for capturing spawners, a fish reproduction system and a system for collecting and incubating eggs are located. The spawner capture system consists of a compartment for collecting spawners and a device for moving spawners in the form of a trap from the net, and is equipped with sources of physical radiation propagation. The fish breeding system contains a cylindrical tank with a conical bottom and a central drain hole, in which a vertical perforated outlet pipe is fixed, and the egg collection and incubation system includes a rectangular tank, equipped with a pump, in which containers for egg collection and incubation are placed in rows, joined by a vertical pipe with horizontal drain pipes, connected to the drain hole of the cylindrical tank [2].

The disadvantage of the facility is that it is only adapted for the reproduction of pelagophilous fish species and cannot be used effectively for fish with different reproductive ecology.

The problem solved by the invention consists in developing a universal mobile complex for the reproduction of fish species from different ecological groups in the conditions of rivers and lakes, which would ensure increased reproduction efficiency in natural conditions.

The essence of the invention is that a universal mobile complex for fish breeding is proposed, which contains a floating dock, in which a system for catching spawners, a fish breeding system and a system for collecting and incubating eggs are located. The floating dock consists of a flat-bottomed body, in the front part of which rectangular gates are provided, fixed to the bottom with the possibility of rotation around the horizontal axis, and a grid for retaining impurities, and a stern fence is provided at the stern of the dock; the spawner catching system consists of a compartment for collecting spawners and a device for moving spawners, made in the form of a net trap, consisting of a central guide and side guides made of net cloth, and net gates, equipped with a window with a flap, and is equipped with sources of physical radiation propagation. The fish breeding system contains a cylindrical tank with species-specific artificial substrates and a conical bottom, with a central drain hole, in which a vertical perforated outlet pipe is fixed, the tank communicating through channels, equipped with a perforated false bottom with triangular slopes, with the compartment for collecting the spawners, a rectangular compartment with a propeller motor, attached with one of its open sides to one of the tank openings, and closed with a rectangular frame with blinds, and with another side - to the impurity retention grid, as well as triangular compartments with propeller motors, formed by a side part of the dock, the rectangular frame and a rectangular frame made of mesh. The system for collecting and incubating eggs contains a rectangular basin with a pump, in which containers for collecting and incubating eggs are placed in rows, each container in a row being connected by a longitudinal discharge pipe, equipped with valves, with a vertical water supply pipe with holes for passing water into the containers and with a cylindrical blocking valve with a vertical rod for moving it inside the pipe, and each longitudinal discharge pipe is connected to a transverse discharge pipe, equipped with valves, the longitudinal pipes at one end opening into the compartment for collecting the spawners, at the other end being connected to the drain hole of the cylindrical basin through a cylindrical receiver fixed below it, and the transverse pipe opening into the channels. In the space between the flat bottom of the dock and the perforated false bottom, a device for collecting deposited eggs is placed, which contains a system of blocks with a continuous cable stretched between them, to which is attached by elastic rods a eggs collector, consisting of a cylindrical body with a horizontal slot, triangular guide plates in section, made of elastic material, placed along the edges of the slot, as well as ears for attaching the rods to the cylindrical body.

The container designed for collecting and incubating eggs with a low specific gravity may contain a cylindrical perforated body with a conical bottom with a central hole and a perforated false bottom with a central hole, as well as a water flow distribution system, which contains a movable and a fixed element of cylindrical shape, the fixed element being mounted on the central hole of the conical bottom, and the movable element - on the central hole of the false bottom, at the same time the upper end of the movable element is equipped with semicircular covers with gaskets, fixed thereon with the possibility of rotation on axes by means of springs and vertical rods, so that the movable and the fixed element are arranged coaxially and fixed by clamps.

The container designed for collecting and incubating eggs with a high specific gravity may contain a rectangular perforated body with a flat bottom with a central hole and a perforated false bottom with a central hole, as well as a water flow distribution system.

The base of species-specific artificial substrates can be made in the form of a rectangular or round frame with a perforated bottom, on which elements of the substrate are fixed, with the possibility of coating them with substances that prevent eggs from sticking.

The technical result of the invention consists in increasing the effectiveness of natural reproduction of fish from different ecological groups due to the new constructive elements of the complex, which would ensure the reproduction of fish with different reproductive ecology under controlled environmental conditions, modeling of species-specific hydrological conditions and other reproductive conditions, as well as high vitality of embryonated eggs under optimal operating conditions of the egg collection system after reproduction and of devices for egg incubation and larval preservation.

The installation is explained by the drawings in Fig. 1-10, which represent:

- Fig. 1, the universal mobile complex for fish reproduction, top view;

- Fig. 2, the complex, side view in section along the central axis;

- Fig. 3, the container designed for collecting and incubating eggs with a low specific gravity, top view and side view in section along the central axis;

- Fig. 4, the container designed for collecting and incubating eggs with a high specific gravity, side view in section along the central axis;

- Fig. 5, the water flow distribution system for collecting eggs in the container, side view in section along the central axis;

- Fig. 6, the water flow distribution system for incubation of eggs in the container, side view in section along the central axis;

- Fig. 7, the mobile and fixed elements of the water flow distribution system in the container, axonometric view;

- Fig. 8, diagram for collecting eggs during the act of fish reproduction in channels, side view in section along the central axis of the channel;

- Fig. 9, the egg collector, axonometric view;

- Fig. 10, artificial substrate, side view in section along the central axis.

The universal mobile fish breeding complex (fig. 1-10) contains the floating dock, which houses the broodstock capture system, the fish breeding system, and the egg collection and incubation system.

The floating dock consists of a body 1 with a flat bottom 2 and side parts 3, pontoons 4, and crossbars 5. In the front part of the body 1, rectangular gates 6 are provided, fixed to the bottom 2 with the possibility of rotation around the horizontal axis, and a grid for retaining impurities, and at the stern of the dock, a stern fence is provided. The grid for retaining impurities is formed by rectangular frames 7 of the net, a horizontal trapezoidal bar 8, located at the bottom 2 with the wider base on the outside, and vertical bars 9, fixed to it, and equipped with holes for mounting the rectangular frames 7 and with paired rails 10 for their fixation. The stern guard consists of perforated rectangular flaps 11 and non-perforated 12, the horizontal bar 13 of trapezoidal shape, placed at the bottom 2 with the wider base inside and the vertical bars 14, fixed to it, and equipped with holes for installing rectangular flaps 11 or 12, for fixing which paired rails 15 are provided along the holes.

The spawner capture system consists of the compartment 16 for collecting spawners from the aquatic object and the device for moving the spawners, made in the form of a net trap of the stationary seine type, consisting of the central guide 19 and the side guides 20 made of net cloth, and of the net gates 21, which open into the compartment 16 through the window 17 with the flap 18, and is equipped with the sources of propagation of physical radiation 22 (luminescent, acoustic, electric, etc.) for attracting fish into the compartment 16.

The fish breeding system comprises a cylindrical tank 23 with a conical bottom 24, having a central drain hole 25, in which a vertical perforated discharge pipe 26 is fixed, the tank 23 communicating through channels 27, which connect the compartment 16 with the cylindrical tank 23, as well as the compartments with propeller motors 28, 28a and 28b. The cylindrical part of the tank 23 is formed by a horizontal polygonal beam 29, fixed along the upper edge of the conical bottom 24, and vertical bars 30 extending from it, forming rectangular holes, along which rails 31 are attached for fixing non-perforated rectangular flaps 32 or rectangular frames 33 with vertical louvers 34 with adjustable offset. To ensure the reproduction of fish that lay eggs on the substrate, various (depending on the fish species) artificial substrates 35 are provided in the basin 23, placed on horizontal mesh supports 36, installed in the form of steps on the conical bottom 24. The propeller motor compartment 28 represents a rectangular box 37, and is attached with one of its open sides to one of the openings of the basin 23, and closed with the rectangular frame 33 with the blinds 34, and with another side - to the impurity retention grid through the rectangular frame 7. The propeller motor compartments 28a and 28b are triangular in shape and formed by a lateral part 3 of the dock, the rectangular frame 33 and the rectangular mesh frame 38. The channels 27 are formed by the side walls of the rectangular basin 41 and the lateral parts 3 of the dock. These are equipped with the perforated false bottom 39 with triangular slopes 40 towards the compartment 16 and the basin 23. On the perforated false bottom 39, if necessary, the artificial substrates 35 specific to the fish species for reproduction are placed. The base of the artificial substrate 35 is made in the form of a rectangular or round frame 35a with a perforated bottom 35b, on which the elements 35c (imitation of pebbles, plant roots, aquatic plants, filamentous algae, etc.) of the substrate 35 are fixed, with the possibility of coating them with substances that prevent the eggs from sticking.

The egg collection and incubation system contains the rectangular basin 41 with the pump 42, in which the containers 46a and 46b for collecting and incubating the eggs are placed in rows, each container in a row being connected by the longitudinal discharge pipe 43, equipped with the valves 43a, 43b, 43c, with the vertical water supply pipe 47 with the holes 48 for passing the water into the containers 46a and 46b and with the cylindrical blocking valve 49 with the vertical rod 50 for moving it inside the pipe 47. Each longitudinal discharge pipe 43 is connected to the transverse discharge pipe 44, equipped with valves 44a, 44b and 44c, the longitudinal pipes 43 at one end opening into the compartment 16 for collecting the spawners, at the other end being connected to the drain hole 25 of the cylindrical basin 23 through the cylindrical receiver 45 fixed below it, and the transverse pipe 44 opening into the channels 27. The container 46a designed for collecting and incubating eggs with a low specific gravity (pelagic, bathypelagic, etc.) contains the perforated cylindrical body 51 with the conical bottom 52 with the central hole 53 and the perforated false bottom 54 with the central hole 55, as well as the water flow distribution system, which contains the movable elements 56 and fixed 57 of cylindrical shape. The fixed element 57 is mounted on the central hole 53 of the conical bottom 52, and the movable element 56 - on the central hole 55 of the false bottom 54. The upper end of the movable element 56 is equipped with semicircular covers 58 with gaskets 59, fixed thereon with the possibility of rotation on the axes 60 by means of springs 61 and vertical rods 62, so that the movable element 56 and the fixed element 57 are arranged coaxially and fixed by clamps 63. The container 46b designed for collecting and incubating eggs with a high specific weight (eggs deposited on nests or unglued eggs) contains the perforated rectangular body 64 with the flat bottom 65 with the central hole 53 and the perforated false bottom 54 with the central hole 55, as well as the water flow distribution system. In the space between the flat bottom 2 of the dock and the perforated false bottom 39 of the channel 27, the device for collecting the deposited eggs is placed, which contains the system of blocks 66 with the continuous cable 67 stretched between them, to which the egg collector 69 is fixed by the elastic rods 68, consisting of the cylindrical body 70 with the horizontal slot 71, the guide plates 72 triangular in section, made of elastic material, placed along the edges of the slot 71, as well as the ears 73 for fixing the rods 68 to the cylindrical body 70.

Examples of embodiments of the invention

Before starting the work, the device is moved to the characteristic place of natural fish reproduction, being fixed in a stationary position with the front part against the water current. Subsequently, the net trap of the stationary seine type is installed, directing the central guide made of net cloth 19 towards the water flow, and the side guides made of net cloth 20 - in the radial direction, on both sides, perpendicular to the water flow. On the guides 19, 20, the net gates 21, in the compartment 16 and in the channels 27, the sources of propagation of physical radiation 22 (luminescent, acoustic, electric, fields with species-specific parameters) are placed to attract the desired species of fish into the trap. On the stern rail, perforated rectangular flaps 11 are installed in the openings, attached to the mesh gates 21, and the rest are closed with non-perforated rectangular flaps 12. The flap 18 closes the window 17, preventing fish from accessing the compartment 16. The rectangular frames 7 made of the mesh are installed in the openings of the dirt retention grid, fixing them in the first row to the rails 10. As the frames 7 become dirty, they will be replaced with clean ones, which will be installed in another row of rails 10. The openings of the cylindrical basin 23, located on the front part of the body 1, are closed with rectangular frames 33 with vertical blinds 34, and the openings of the basin 23, attached to the channel 27 are open, the other openings being closed with the flaps rectangular unperforated 32.

The egg collection and incubation system is not yet operational: the rectangular basin 41 is filled with water, but the pump 42 is disconnected, the valves on the pipes 43 and 44 are closed, and on the vertical water supply pipes 47 the holes 48 for the passage of water are closed by the cylindrical blocking valve 49, at the same time the containers 46a and 46b for egg collection and incubation are not installed.

Subsequently, after the preparation of all systems, on the front side of the body 1, the gates 6 are closed (with the upper edge on the bottom of the aquatic object), serving to direct the water flow into the device. The water flow from the aquatic object enters the front side of the body 1, passes through the dirt-retaining grid and through the adjustable gaps of the blinds 34 of the rectangular frames 33, and enters the cylindrical basin 23. From it, the water flow passes through the open holes of the basin 23 into the channels 27, and through them enters the compartment 16, and subsequently, through the mesh gates 21 and the perforated rectangular flaps 11 adjacent to them, the water exits back into the aquatic object. To regulate the intensity of the water flow, which crosses the complex, propeller motors in the compartments 28, 28а, 28b are used.

The further functioning of the complex depends on the ecological and biological peculiarities of the reproduction of specific fish species.

Functioning of the complex for the reproduction of pelagophilous fish species based on the model of the anadromous migratory Danube mackerel

After the mackerel spawners have approached the ponds (at night), the flap 18 is removed at the net gates 21, opening the window 17, and the light sources 22 are activated to attract the fish into compartment 16. The white bulbs will be connected with a certain periodicity, giving the illusion of light movement in one direction, thus guiding the spawners towards the gates 21, through the window 17 into compartment 16, and then into the channels 27 and the cylindrical basin 23. The constructive elements of the device (the net trap in combination with the light reflectors) do not allow the spawners to go back into the river and ensure their free movement inside body 1.

After the concentration of mackerel spawners in sufficient quantities, the window 17 is closed with the flap 18 and the sources 22 are disconnected, and only the perforated rectangular flaps 11 are installed in the feeding area. In the cylindrical basin 23, the vertical blinds 34 on the rectangular frames 33 are turned in such a way that the water flow passing through them is directed to one of the channels 27, generating a significantly higher current there than in the channel. The flow intensity is increased by connecting the propeller motors in the compartments 28a or 28b. Due to this fact, the fish from compartment 16 (going against the stronger water current) enter this channel, and through it they end up in the basin 23, swim for a while in the water current, and then, return to the other channel 27 back to compartment 16, and so on, forming closed circular movements. This character of the movement of the spawners imitates the upstream migration on the river, giving time to the gonads to reach the maturity necessary to trigger the natural-directed reproduction.

When the fish begin to show signs of readiness for the reproductive act, the following manipulations are performed in the complex. In the cylindrical tank 23, at first, the openings in contact with the channel 27, through which the fish enter the compartment 16, are closed with the rectangular non-perforated flaps 32. After the fish, moving against the water current in the channel 27, will concentrate in the cylindrical tank 23, the openings in contact with the channel 27 will also be closed by means of the non-perforated flaps 32, and the fish, in this way, remain isolated in the tank 23. At the same time, the blinds 34 on the frames 33 are closed (except for the frames attached to the compartments 28, 28a and 28b), the valves 43a, 43b, 43c on the longitudinal exhaust pipes 43 are opened and all the motors are started, which create a circular water current with the preset parameters, in which The water exits from the basin 23 in this case through the outlet pipes 43 in the compartment 16.

Before the process of natural-directed reproduction, the system for collecting and incubating eggs is prepared. In the rectangular basin 41, a row of containers 46a is installed on the discharge pipes 43 for collecting ejaculated eggs. For this purpose, the container 46a is immersed in the basin 41 in such a way that its movable elements 56 and fixed 57, fixed by clamps 63, are fully engaged on the vertical water supply pipe 47 (Fig. 5). In this case, the semicircular covers 58 on the movable element 56, under the action of the pipe 47, open and take a vertical position.

After the reproduction is triggered, the valves 43c are closed on all the outlet pipes 43, and the valves 43a, 43b are left open only on one of the pipes 43. Then the pump 42 is put into operation to drain the water from the basin 41. Thus, the water level in it becomes lower than in the basin 23 and due to this difference in levels, the water together with the deposited eggs enters from the basin 23 through the vertical perforated outlet pipe 26, the drain hole 25 and the cylindrical receiver 45 into the pipe 43, and, subsequently through this, into the vertical water supply pipes 47 and through their holes 48 into the containers 46a in the space above the false bottom 54. The surplus water exits from the containers 46a through the perforation of the cylindrical body 51 into the rectangular basin 41.

After filling, according to the normative parameters, all the containers 46a, located in a row, with eggs, at the pipe 43, which corresponds to them, the valve 43b is closed and the valve 43c is opened, in order to take water from the compartment 16. Then, in the containers 46a of this row, the mobile element 56 is disconnected from the fixed element 57, rotating it at 15-20° with a downward pressure, using the vertical rods 62 (fig. 5). Thus, the clamps 63 on the elements 56 and 57 are disengaged and, due to the elasticity of the false bottom 54, the mobile element 56 rises on the vertical pipe 47, so that its holes 48 are below the false bottom 54, and the water from them, passing through the perforations of the false bottom 54, washes the eggs (fig. 6). Subsequently, the water with the eggs from the basin 23 passes into another row of containers 46a through another outlet pipe 43 with the valves 43a and 43b open and the valve 43c closed. After the completion of the reproductive process, all rows of containers 46a, filled with eggs, are switched to the water supply mode from the compartment 16 and with the help of the valves 43c the optimal parameters for incubation and subsequent storage of the prelarvae are adjusted.

The obtained larvae are transferred to the river or to special ponds for growth. To do this, in the vertical water supply pipes 47, the holes 48 are closed using the cylindrical valve 49 with the vertical rod 50. Then, using the vertical rods 62, the movable element 56 is lowered along the pipe 47 until it stops in the fixed element 57 and, rotating it by 15-20°, puts the clamps 63 on the elements 56 and 57 into a mutual interlock. After that, the container 46a with larvae is removed from the basin 41, slowly lifting it along the pipe 47. At the same time, excess water exits the container 46a through the perforations of the body 51. When the pipe 47 exits the hole of the movable element 56, the semicircular caps 58, under the action of the springs 61, rotate on the shafts 60 and close this hole, preventing the larvae from escaping through it. To release the larvae, the container 46a is immersed in the aquatic object and water fills it through the perforations of the body 51. Then, using the rods 62, the semicircular caps 58 are raised, opening the hole in the movable element 56, thus the container 46a is slowly removed from the aquatic object. In this case, the larvae are discharged with the water current through the hole in the mobile elements 56 and fixed 57 into the central hole 53 of the conical bottom and from there into the aquatic object.

After the spawning is completed, the spawners are evacuated from the basin 23. For this, in the basin 23, on the frames 33, all the openings in the shutters 34 are opened to a direct current, and the flaps 32 are also removed from the openings adjacent to the channels 27. In addition, all the flaps 11 are removed from the stern fence. As a result, the water current entering through the dirt retention grid directs the spawners from the basin 23 through the channels 27 into the compartment 16 and then through the open openings of the feeding area - into the river.

After the spawners that have laid eggs descend to the river, the process of selecting the new batch of spawners for ecological-industrial reproduction in the complex can be repeated without interrupting the process of incubation of eggs and storage of prelarvae in containers 46a.

The functioning of the complex for the reproduction of lithophilic fish species based on the model of the sea bass

During the commissioning of the complex in the spawning area, in the channels 27, on the perforated false bottom 39, artificial substrates 35 for lithophilous fish, imitating pebbles, are installed. After the approach of the sea bream breeders to the breeding sites (at night) at the mesh gates 21, the flap 18 is removed, opening the window 17, and the sources 22 of electric field radiation are activated at the parameters corresponding to the size of the group of breeders of this species, in order to attract the fish. The emitting electrodes of the sources 22 are switched on periodically in a certain sequence, creating a moving source of the electric field, which ensures the directed movement and entry of the fish into the gates 21 and through the window 17 into the compartment 16. In this way, the constructive elements of the device do not allow the spawners to go back into the river and ensure their free movement inside the body 1.

After the concentration of the sea bass spawners in sufficient quantities, the window 17 is closed with the flap 18 and the sources 22 are disconnected, and only the perforated rectangular flaps 11 are installed in the stern fence. In the cylindrical basin 23, the vertical blinds 34 on the rectangular frames 33 are turned in such a way that the water flow passing through them is directed to one of the channels 27, generating a significantly higher current there than in the channel. The flow intensity is increased (if necessary) by connecting the propeller motors in compartments 28a or 28b. Due to this fact, the fish from compartment 16 (going against the stronger water current) enter this channel, and through it they end up in the basin 23, swim for a while in the water current, and then, return to the other channel 27 back to compartment 16, and so on, forming closed circular movements. This character of the movement of the spawners imitates the upstream migration on the river, giving time to the gonads to reach the maturity necessary to trigger the natural-directed reproduction.

When the fish begin to show signs of readiness for the reproductive act, the following manipulations are carried out in the complex. In the basin 23, the shutters 34 on the frames 33 are opened and all the propeller motors are turned on, creating water currents in the channels 27 at specific predetermined parameters. On the longitudinal outlet pipes 43, the valves 43b open, and on the transverse outlet pipe 44, the valves 44a, 44b and 44c open. In the rectangular basin 41, a row of containers 46b for collecting ejaculated eggs is installed on the outlet pipes 43. For this purpose, the container 46b is immersed in the basin 41 in such a way that its movable elements 56 and fixed 57, fixed by the clamps 63, are fully engaged on the vertical water supply pipe 47 (Fig. 5). In this case, the semicircular covers 58 on the movable element 56, under the action of the pipe 47, open and take a vertical position.

After the spawning begins, the pump 42 is put into operation to drain the water from the basin 41, and on one of the pipes 43 the vertical water supply pipes 47 are activated, opening the holes 48 in them by lifting the cylindrical blocking valve 49 with the vertical rod 50. Under the action of the pump 42, the water level in the basin 41 becomes lower than in the channels 27 and due to this difference in levels, the water enters from the channel 27 into the transverse discharge pipe 44, from this into the pipe 43, then into the vertical water supply pipes 47 and through their open holes 48 into the containers 46b in the space above the false bottom 54. The surplus water exits from the containers 46b through the perforation of the body 64 into the basin 41.

During the spawning period, the main group of spawners of the bream is concentrated in compartment 16 and basin 23. Prepared for spawning, the females, accompanied by a group of males, periodically enter the channels 27 and lay their eggs on the substrate 35. The bream eggs have poor adhesion. Therefore, the elements of the substrate 35, imitating pebbles, are preliminarily coated with a substance that prevents the eggs from sticking. The deposited eggs fall onto the substrate of the frame 35a, pass through the perforation of its bottom 35b, then, through the holes of the false bottom 39, they descend onto the bottom 2 of the channel 27. To collect the eggs from the bottom, the egg collector 69 serves, which, through the system of blocks 66 with the continuous cable 67 stretched between them with the elastic rods 68, makes periodic movements back and forth along the bottom 2, collects the eggs from it and concentrates them in the cylindrical body 70 (Fig. 10). At the end point of the movement of the collector 69, its open side part joins the open end of the outlet pipe 44 in the wall of the channel 27, and the eggs together with the water flow are discharged into this pipe, finally falling into the container 46b.

After filling, according to the regulatory parameters, all containers 46a, located in a row, with eggs, at the pipe 43 corresponding to them, the valve 43b is closed and the valve 43c is opened, in order to take water from compartment 16. Then, in the containers 46a of this row, the mobile element 56 is disconnected from the fixed element 57, rotating it at 15-20° with a downward pressure, using the vertical rods 62. Thus, the clamps 63 on the elements 56 and 57 are disengaged and, due to the elasticity of the false bottom 54, the mobile element 56 rises on the vertical pipe 47, so that its holes 48 are below the false bottom 54, and the water in them, passing through the perforations of the false bottom 54, washes the eggs (Fig. 6). Subsequently, the water with the eggs in the channels 27 passes through another drain pipe 43 to another row of containers 46b, after opening the holes 48 on the vertical water supply pipes 47 of this row. After the completion of the reproductive process, all rows of containers 46b, filled with eggs, are switched to the water supply mode from compartment 16 and with the help of valves 43c the optimal parameters for incubation and subsequent storage of the prelarvae are adjusted.

The obtained larvae are transferred to the river or to special ponds for growth. To do this, in the vertical water supply pipes 47, the holes 48 are closed using the cylindrical valve 49 with the vertical rod 50. Then, using the vertical rods 62, the movable element 56 is lowered along the pipe 47 until it stops in the fixed element 57 and, rotating it by 15-20°, puts the clamps 63 on the elements 56 and 57 into a mutual interlock. After that, the container 46a with larvae is removed from the basin 41, slowly lifting it along the pipe 47. At the same time, excess water exits the container 46a through the perforations of the body 64. When the pipe 47 exits the hole of the movable element 56, the semicircular caps 58, under the action of the springs 61, rotate on the shafts 60 and close this hole, preventing the larvae from escaping through it. To release the larvae, the container 46a is immersed in the aquatic object and water fills it through the perforations of the body 64. Then, using the rods 62, the semicircular caps 58 are raised, opening the hole in the movable element 56, thus the container 46a is slowly removed from the aquatic object. In this case, the larvae are discharged with the water current through the hole in the mobile elements 56 and fixed 57 into the central hole 65 of the flat bottom and from there into the aquatic object.

After the spawning is completed, the spawners are evacuated from the basin 23. For this, in the basin 23, on the frames 33, all the openings in the shutters 34 are opened to a direct current, and the flaps 32 are also removed from the openings adjacent to the channels 27. In addition, all the flaps 11 are removed from the stern fence. As a result, the water current entering through the dirt retention grid directs the spawners from the basin 23 through the channels 27 into the compartment 16 and then through the open openings of the feeding area - into the river.

After the spawning spawners descend to the river, the process of selecting the new batch of spawners for ecological-industrial breeding in the complex can be repeated without interrupting the process of incubation of the spawn and storage of the prelarvae in the containers 46b.

Functioning of the complex for the reproduction of phytophagous fish species based on the carp model

During the commissioning of the complex in the area of the forests, in the channels 27, on the perforated false bottom 39, artificial substrates 35 for phytophagous fish are installed, imitating thickets of aquatic plants. In addition, in the basin 23 on the conical bottom 24, horizontal supports made of mesh 36 in the form of steps are installed, and similar substrates 35 are placed on them. After the carp breeders approach the breeding sites at the mesh gates 21, the flap 18 is removed, opening the window 17, and the sources 22 of electric field radiation are activated at the parameters corresponding to the size of the group of breeders of this species, in order to attract the fish. The emitting electrodes of the sources 22 are switched on periodically in a certain sequence, creating a moving source of the electric field, which ensures the directed movement and entry of the fish into the gates 21 and through the window 17 into the compartment 16. In this way, the constructive elements of the device do not allow the spawners to go back into the river and ensure their free movement inside the body 1.

After the concentration of carp spawners in sufficient quantities, the window 17 is closed with the flap 18 and the sources 22 are disconnected, and only the perforated rectangular flaps 11 are installed in the stern fence. In the cylindrical basin 23, the vertical blinds 34 on the rectangular frames 33 are turned in such a way that the water current passing through them is directed to one of the channels 27, generating a significantly larger current there than in the channel. Due to this, the fish from the compartment 16 (orienting against the stronger water current) enter this channel, and through it they get into the basin 23, swim for some time in the water current, and then, return via the other channel 27 back to the compartment 16, and so on, forming closed circular movements. This pattern of spawning movement mimics upstream migration on the river, giving the gonads time to reach the necessary maturity.

When the fish begin to show signs of readiness for the reproductive act, the following manipulations are carried out in the complex. In the basin 23 and the channels 27, the shutters 34 on the frames 33 are opened, creating weak water currents at the preset parameters. On the longitudinal outlet pipes 43, the valves 43c are opened, and the other valves on the pipes 43 and 44 are closed. In the rectangular basin 41, on the outlet pipes 43, a row of containers 46b for incubation of eggs on substrates is installed. For this purpose, the container 46b is immersed in the basin 41 in such a way that its movable elements 56 and fixed 57, fixed by clamps 63, are fully engaged on the vertical water supply pipe 47 (Fig. 5). In this case, the semicircular caps 58 on the movable element 56, under the action of the pipe 47, open and take a vertical position. Then, in the containers 46b, the movable element 56 is disconnected from the fixed element 57, rotating it 15-20° with a downward push, using the vertical rods 62. Thus, the clamps 63 on the elements 56 and 57 are disengaged and, due to the elasticity of the false bottom 54, the movable element 56 rises on the vertical pipe 47, so that its holes 48 are under the false bottom 54 (Fig. 6).

Ready to spawn, the females, accompanied by a group of males, enter the area of the substrates 35 and lay their eggs. Carp eggs have a strong adhesion. Therefore, the incubation of the fertilized eggs is carried out directly on the substrates 35, which, after their normative filling, are transferred to the containers 46b. After the spawning begins, the pump 42 is put into operation to drain the water from the basin 41, and on one of the pipes 43 the vertical water supply pipes 47 are activated, opening the holes 48 in them by lifting the cylindrical blocking valve 49 with the vertical rod 50. Under the action of the pump 42, the water level in the basin 41 becomes lower than in the channels 27 and due to this difference in levels, the water from the compartment 16 enters the drain pipe 43, then into the vertical water supply pipes 47 and through their open holes 48 into the containers 46b in the space under the false bottom 54. From this space, the water, through the perforations of the false bottom 54, reaches the reproductive substrates 35, washing the eggs. The optimal conditions for the incubation of the eggs and the maintenance of the prelarvae are regulated using the valve 43c. The excess water exits the containers 46b through the perforations in the body 64 into the basin 41.

After filling, according to the regulatory parameters, all the containers 46b with eggs, from the discharge pipe 43 to the other pipe 43 the water supply is started to a new row of containers 46b (opening the holes 48 on the vertical water supply pipes 47) and the installation of the substrates 35 with eggs in them begins.

The larvae obtained as a result of the incubation of the eggs are transferred to the river or to special ponds for growth. To do this, the substrates 35 are removed from the containers 46b, and the holes 48 in the vertical supply pipes 47 are closed using the cylindrical valve 49 with the vertical rod 50. Then, using the vertical rods 62, the movable element 56 is lowered along the pipe 47 until it stops in the fixed element 57 and, rotating it by 15-20°, puts the clamps 63 on the elements 56 and 57 into mutual interlocking. After that, the container 46a with larvae is removed from the basin 41, slowly lifting it along the pipe 47. At the same time, excess water exits the container 46a through the perforations of the body 64. When the pipe 47 exits the hole of the movable element 56, the semicircular caps 58, under the action of the springs 61, rotate on the shafts 60 and close this hole, preventing the larvae from escaping through it. To release the larvae, the container 46a is immersed in the aquatic object and water fills it through the perforations of the body 64. Then, using the rods 62, the semicircular caps 58 are raised, opening the hole in the movable element 56, thus the container 46a is slowly removed from the aquatic object. In this case, the larvae are discharged with the water current through the hole in the mobile elements 56 and fixed 57 into the central hole 65 of the flat bottom and from there into the aquatic object.

After the spawning is completed, the spawners are evacuated from the basin 23. For this, in the basin 23, on the frames 33, all the openings in the shutters 34 are opened to a direct current, and the flaps 32 are also removed from the openings adjacent to the channels 27. In addition, all the flaps 11 are removed from the stern fence. As a result, the water current entering through the dirt retention grid directs the spawners from the basin 23 through the channels 27 into the compartment 16 and then through the open openings of the feeding area - into the river.

After the spawners have laid their eggs and left the pond, the process of selecting the new batch of spawners for ecological-industrial reproduction in the complex can be repeated without interrupting the process of incubation of the eggs and storage of the prelarvae in the containers 46b.

Functioning of the complex for the reproduction of phytophagous fish species based on the pike perch model

After the zander spawners approach the spawning grounds, artificial substrates 35 in the form of nests are placed there. During the commissioning of the complex in the area of the bogs, in the basin 23, on the conical bottom 24, horizontal mesh supports 36 are installed for placing substrates 35. When spawning is observed on the artificial nests, the following manipulations are carried out in the complex. In the basin 23 and channels 27, with the help of propeller motors in the compartment 28 and blinds 34 on the frames 33, a water current is created at the preset parameters. On the longitudinal exhaust pipes 43, valves 43c are opened, and the other valves on the pipes 43 and 44 are closed. In the rectangular basin 41, on the outlet pipes 43, a row of containers 46b is installed for collecting eggs on the substrates 35 (Fig. 5). Then, in the containers 46b, the mobile element 56 is disconnected from the fixed element 57, rotating it 15-20° with a downward push, using the vertical rods 62. Thus, the clamps 63 on the elements 56 and 57 are disengaged and, due to the elasticity of the false bottom 54, the mobile element 56 rises on the vertical pipe 47, so that its holes 48 are below the false bottom 54 (Fig. 6).

After the nesting containers 46b have been installed, the pump 42 is put into operation to drain the water from the basin 41, and on one of the pipes 43 the vertical water supply pipes 47 are activated, opening the holes 48 in them by lifting the cylindrical blocking valve 49 with the vertical rod 50. Under the action of the pump 42, the water level in the basin 41 becomes lower than in the compartment 16 and due to this difference in levels, the water from the compartment 16 enters the drain pipe 43, then into the vertical water supply pipes 47 and through their open holes 48 into the containers 46b in the space under the false bottom 54. From this space, the water, through the perforation of the false bottom 54, reaches the reproductive substrates 35, washing the eggs. The optimum conditions for incubation of the eggs and maintenance of the prelarvae are regulated by means of the valve 43c. The surplus water exits from the containers 46b through the perforations of the body 64 into the basin 41.

After filling, according to the normative parameters, all the containers 46b with eggs, from one discharge pipe 43 to the other pipe 43 the water supply is started to a new row of containers 46b (opening the holes 48 on the vertical water supply pipes 47) and the installation of the substrates 35 with eggs in them begins.

The larvae obtained as a result of the incubation of the eggs are transferred to the river or to special ponds for growth using a method similar to that described when working with carp breeders. If necessary, the reproduction of pike perch can also be carried out inside the complex on the nests installed in channels 27 and pond 23.

1. SU 839455 A1 1981.06.23

2. MD 1538 Y 2021.06.30

Claims (4)

1. Universal mobile complex for fish reproduction, which contains a floating dock, in which a system for capturing spawners, a fish reproduction system and a system for collecting and incubating eggs are located; the floating dock consists of a body (1) with a flat bottom (2), in the front part of which rectangular gates (6) are provided, fixed to the bottom (2) with the possibility of rotation around the horizontal axis, and a grid for retaining impurities, and a stern fence is provided at the stern of the dock; the system for capturing the spawners consists of a compartment (16) for collecting the spawners and a device for moving the spawners, made in the form of a net trap, consisting of a central guide (19) and side guides (20) made of net cloth, and net gates (21), equipped with a window (17) with a flap (18), and is equipped with sources of physical radiation propagation (22); the fish breeding system comprises a cylindrical tank (23) with species-specific artificial substrates (35) and a conical bottom (24), having a central drain hole (25), in which a vertical perforated outlet pipe (26) is fixed, the tank (23) communicating through channels (27), equipped with a perforated false bottom (39) with triangular slopes (40), with the compartment (16) for collecting the breeders, a rectangular compartment with a propeller motor (28), attached with one of its open sides to one of the tank holes (23), and closed with a rectangular frame (33) with blinds (34), and with another side - to the impurity retention grid, as well as triangular compartments with propeller motors (28a and 28b), formed by a lateral part (3) of the dock, the rectangular frame (33) and a rectangular mesh frame (38); the system for collecting and incubating eggs comprises a rectangular basin (41) with a pump (42), in which are placed in rows containers (46a and 46b) for collecting and incubating eggs, each container in a row being connected by a longitudinal discharge pipe (43), equipped with valves (43a, 43b, 43c), with a vertical water supply pipe (47) with holes (48) for passing water into the containers (46a and 46b) and with a cylindrical blocking valve (49) with a vertical rod (50) for moving it inside the pipe (47), and each longitudinal discharge pipe (43) is connected with a transverse discharge pipe (44), equipped with valves (44a, 44b and 44c), the longitudinal pipes (43) at one end opening in the compartment (16) for collecting the spawn, at the other end being connected to the drain hole (25) of the cylindrical basin (23) through a cylindrical receiver (45) fixed below it, and the transverse pipe (44) opening into the channels (27), at the same time in the space between the flat bottom (2) of the dock and the perforated false bottom (39) a device for collecting the deposited eggs is placed, which contains a system of blocks (66) with a continuous cable (67) stretched between them, to which is fixed by elastic rods (68) a eggs collector (69), formed by a cylindrical body (70) with a horizontal slot (71), guide plates (72) triangular in section, made of elastic material, placed along the edges of the slot (71), as well as ears (73) for fixing the rods (68) to the cylindrical body (70). 2. Complex according to claim 1, in which the container (46a) designed for collecting and incubating eggs with a low specific gravity contains a perforated cylindrical body (51) with a conical bottom (52) with a central hole (53) and a perforated false bottom (54) with a central hole (55), as well as a water flow distribution system, which contains a movable element (56) and a fixed one (57) of cylindrical shape, the fixed element (57) being mounted on the central hole (53) of the conical bottom (52), and the movable element (56) - on the central hole (55) of the false bottom (54), at the same time the upper end of the movable element (56) is equipped with semicircular caps (58) with gaskets (59), fixed thereon with the possibility of rotation on shafts (60) by means of springs (61) and vertical rods (62), so that the movable element (56) and the fixed (57) are arranged coaxially and fixed by clamps (63). 3. Complex according to claim 1, wherein the container (46b) designed for collecting and incubating eggs with a high specific gravity comprises a perforated rectangular body (64) with a flat bottom (65) with a central hole (53) and a perforated false bottom (54) with a central hole (55), as well as a water flow distribution system. 4. Complex according to claim 1, in which the base of the species-specific artificial substrates (35) is made in the form of a rectangular or round frame (35a) with a perforated bottom (35b), on which elements (35c) of the substrate (35) are fixed, with the possibility of coating them with substances that prevent the eggs from sticking.