SU1755752A1 - Spawning sit for rheophillous fish species - Google Patents

Description

with channel 2, water from the pumping station 5 enters the annular collector 6 with means 7 to create a circulating flow, as well as into the pipe 21 of the feed flute 20 of an autonomous spawning system for washing spuds 8. The washing system includes the flute 22, the bottom of the channel 1 and the spawning grounds 8 are sloped towards the outer wall of the channel to facilitate the release of larvae into the tray 10. Between the heads 8 and the tray 10 there may be

Mesh screens 26 are installed. The straight portion of the inner wall of the channel 1 can be formed by cassettes 27 of drainage material to allow water to pass to tank 28 where the pump station 5 is placed. In channel 1, baffle plates 11 are mounted on the outer wall to level the flow and create zones for manufacturers. All this brings the conditions of reproduction to the natural. 5 hp f-ly, 5 ml.

The device relates to the field of fish farming, in particular, to a device for keeping reef fowl producers, mainly sturgeon, their spawning and subsequent development of juveniles.

The Washington-type basin is known for keeping sturgeon producers of the design of prof. A.Y. Derzhavin,

Due to the hydrodynamic design features, the Washington basins are very imperfect, due to the formation of dead angles and eddies in the water turning points. This limits the useful area of the basin and violates the conditions of imitation of the natural spawning route. There is also no possibility of differentiated start-up, release of spawned producers and young fry, as well as its preparation to a viable stage.

A spawning complex for the reproduction of rheophilic fish species is also known, including a closed annular channel with a horizontal bottom, a pumping station, a diversion channel, nursery shallow water areas located in an area contoured by an annular channel, fish catchers and a means for creating a circular flow in the channel. Due to its design features, it is not acceptable for spawning of iopodilous fish species (for example, sturgeon) because it imitates the conditions of the layered spawning system, while in the majority of lithophilic fish species, the river (bed) hypo spawning predominates,

The aim of the invention is to improve the conditions of keeping, spawning of producers, as well as incubation of eggs.

This goal is achieved by the fact that a spawning complex for the reproduction of rheophilic fish species, including a closed annular channel, an inlet channel connected to it and an outlet channel equipped with gates, a pumping station, an annular collector connected to it with means for creating a circular flow in the channel water and located on

the bottom of the channel is a spawning substrate of granular material, additionally equipped with a tray for collecting larvae, located at the bottom of the channel along the perimeter of its outer wall and communicating with the outlet channel, and with baffles attached to the outer wall of the channel along its perimeter, and as a granular material spawning substrate in it used pebbles, while spawning

the substrate is poured out in the form of spawning nests located with the formation of stretches between them and equipped with autonomous substrate washing systems, the annular collector is fixed on the inner wall of the channel, and each means for creating a circulating flow is equipped with an ejection aeration fixture, The holes are made with a slope towards the outer wall of the annular channel.

In addition, it is advisable to provide the complex with removable mesh protective grilles, and on the wet slopes of the channel along the reaches borders the grooves are made

To accommodate them, form an autonomous substrate washing system from flutes fixed at the bottom of the channel and flutes to flush the surface of the substrate with spawning clumps mounted for reciprocating movement along the canal, and also set mesh between the spawning crests and the larva collection tray. screens,

The annular channel should also be made with two opposite curved sections, the inlet channel should be connected to the side wall of the annular channel, and the inlet section of the outlet channel should be located on one side of the annular channel

in the place of its bend,

It is also advisable to form the straight sections of the side walls of the annular channel to form from successively installed cassettes of drainage material for the passage of water in the inner tank formed by the cassettes and walls of the channel, and the pumping station to be installed in the latter.

FIG. 1 shows a general view of the spawning complex; Fig 2 - view of the complex, section; FIG. 3 shows a part of a spawning channel with a mesh screen; Fig. 4 shows the aeration-ejection device of the means for creating a circulation flow of water in the channel; in fig. 5 is a general view of a movable wash flute.

The spawning complex includes a closed annular channel 1, a supply channel 2 communicated with it and an outlet channel 3, which is connected to a mature reservoir 4, a pump station 5, an annular collector 6 connected to it with means 7 for creating a circulation flow of water in the channel reinforced on the inner wall of the oval rope 1 At the bottom of the channel there is a spawning substrate made of granular material, which is used as a pebble. The spawning substrate is filled in the form of spawning plots 8 arranged to form between them forests 9

Each spawning group 8 is formed by an autonomous substrate washing system.

The complex also contains a tray 10 for collecting larvae, located in the lower part of the annular channel 1 along the perimeter of its outer wall and communicating with the diverting channel 2.

Dampers 11 are fixed on the outer wall of the annular channel 1 along its perimeter, which serve to equalize the flow of water and form zones for manufacturers

The supply and discharge channels 2 and 3 are equipped with gates 12 and 13 in the form of gateways-regulators with fish protection nets and gate valves 14 and 15, and at the entrance of channel 3 a removable large-mesh fish protection network 16 is installed,

The bottom of the annular channel 1 and the spawning ridges are made with a slope towards the outer wall of the channel

Each means 7 for creating a circulating flow in the channel is provided with an ejection aeration device 17, for example, such as shown in fig. four.

The complex can be equipped with removable mesh fences

18a, on the wet slopes of the channel 1, grooves 19 are made along the borders of the molds 9 for their placement.

Each autonomous substrate washing system may include bottom flushing flutes 20 fixedly mounted at the bottom of channel 1 and connected via a circular conduit 21 to a pumping station 5, and a flute 22 mounted to move the surface of the substrate of non-spring trees located perpendicular to the direction of water flow in the channel.

The flute 22 can have various constructive execution depending on the conditions of the spawning complex. For example, such as shown in FIG. 5, where the flute 22 is mounted on a crane-beam 23 mounted on two carts 24. moved along the track 25,

Tray 10 for collecting larvae should be separated from spawning clump by 8 mesh screens 26.

The annular channel 1 can be shaped, having two opposite curved sections. In this case, the inlet channel 2 should be connected to the side wall of the annular channel 1, and the inlet section of the outlet channel 3 should be located in the end part of the channel 1 in the place of its bend. In addition, the side wall of the channel 1 on the straight sections can be formed by a set of successively installed cassettes 27 of drainage material for the passage and accumulation of water in the inner tank 28 formed by the cassettes 27 and the walls of the channel 1, and the pump station 5 is located in said tank 28.

For ease of maintenance and operation of the complex, transition bridges 29 are provided.

The conduit 21 is equipped with shut-off valves 30, and the manifold 6 with shut-off valves 31.

Works spawning complex as follows,

The estimated number of manufacturers is launched into channel 2, in which the optimum hydrological regime (flow rate 0.8-1.2 m / s) is created by means of gateway controller 12. When this valve 14 is open, and the valve 15 is closed. After adaptation and release of fish from the stressful state, sturgeon producers, moving against the current, leave channel 2 and begin to perform a closed pseudo-migration along the annular spawning channel 1. After the last producers leave channel 2, the einson 14 closes the entrance to the channel, as it matures spawning on the spawning grounds 8. Moreover, the 8 spawning grounds are poured with a slant towards the outer wall of the annular channel 1. This allows producers with various morphophysiological indicators to choose optimum depth for spawning. In addition, the slope of spawning ridge 8 allows the larvae to hatch more effectively to roll and concentrate in tray 10. The slope of ridge 8 also contributes to a certain degree to self-cleaning of the spawning substrate. The various suspensions that fall on the substrate, the debris is gradually pushed aside by the current of water into the lower part of the bed, and the passage through the screen partition 26 enters the tray 10 and then is removed from the spawning channel. In addition, forced washing of the spawning substrate (individually for each spawning group) is provided through a network of bottom washing flutes 20 and movable washing flutes 22. Forced washing of the substrate occurs as it is contaminated between spawning cycles. Purified substrate contributes to more effective spawning and increase in the release of young in the period of embryogenesis.

The spawned producers roll downstream and, with the valve 14 open, are released through channel 2 into the river. At the end of the incubation period (8–9 days on average), the valve 15 opens the entrance to the channel 3 and the young sowing down from the rolls downstream into the nursery reservoir 4 (of natural or artificial origin) for further growth. Grown in the reservoir 4 the young are subsequently released into the river The location of the access channel for skat fry at the bend of the spawning canal will allow a large effective first to divert the sturgeon flock into the nursery water body. On the wet slopes of the annular channel, grooves 19 are made at the borders of the stretches to install removable screening grids 18. This will allow localization of non-rolling growers localized in the stretches, excluding possible damage to the spawning patterns.

The hydrological mode of operation of the spawning complex is as follows. Pump station 5 by means of an annular water collector b supplies water to means 7 with an ejection and aeration device 17, owing to which in the spawning channel

a closed circular flow will be created. The means 7 are installed in the calculated places along the inner wall around the perimeter of the annular cannon 1 and, in addition to their main function, the creation of a circular flow contributes to the displacement (flushing) of the released young from the spawning pool 8 to the tray 10. In addition, the means 7 with ejection aeration device 17 allow you to improve the "nazy regime in the spawning channel, the bouncing hoods 11 serving1 to enclose the flow velocity meravnoporosti, narrowing the flow of the channel in different places with a weak current, another, equally important function Visors 11 - creating zones for sludge producers. During the pre-spawning season, depending on the physiological state, the producers choose the speed limit that is best for themselves and, in addition, need periodic rest, standing in places with a weak current. These conditions make it possible for normal development of the process of ovogenesis and ovulation, which ultimately has a positive effect on the effectiveness of spawning,

The autonomous bottom flushing system of the substrate is supplied with water by the pump station 5 by means of an annular water pipeline 21. The water supply to each flushing network is regulated by shut-off valves 30

A portion of the water from channel 1, filtered through the drainage cassettes 27, accumulates in the inner tank 28, from which (already de-suspended) pump station 5 is fed into the piping network 21.6. Water is drawn to the pumping station from the river,

Operation of this spawning complex will allow reproduction of valuable commercial fish species, in particular, sturgeon, at a level as close as possible to natural reproduction. This significantly reduces the cost of material and labor resources associated with the factory method of sturgeon reproduction, efficiently uses water resources and, most importantly, retains the most productive (in terms of age composition) part of the producers that can be used for subsequent spawning, which is consistent with not feasible with the factory method of sturgeon reproduction,

Claims (6)

Invention Formula I. Spawning complex for reproduction of fish rheophilic aids, including a closed annular channel, communicated with it inlet and outlet channels, a pumping station equipped with gates, an annular channel connected to it with means for creating a circulating water flow in the channel the bottom of the channel is a spawning substrate of granular material, characterized in that, in order to improve the conditions of keeping and spawning of the producers, as well as incubating the eggs, it is additionally equipped with a tray to collect larvae in the lower part of the channel along the perimeter of its outer wall and communicated with the outlet channel, and the fender visors fixed on the inner side of the outer wall of the channel along its perimeter and serve to equalize the flow of water and form zones for sludge producers as granular material The pebble substrate was used for pebbles, the spawning substrate was filled in the form of spawning clumps, arranged to form between them and reached and equipped with autonomous systems for washing the substrate, and the ring collector P with means for creating a circulating flow is fixed on the inner wall of the annular channel and each means is equipped with an ejection and aeration device, with the bottom of the annular channel and spawning ridges located with a slope towards the outer wall of the annular channel. 2. The complex according to claim 1, which means that it is equipped with a removable mesh RIAZREZE fl-fl 29 Ј6 mi bars, and on the wet slopes of the channel along the limits of the ridges, grooves are made for their placement. 3. The complex according to claim 1, characterized in that each autonomous substrate washing system consists of a row of flutes fixed at the bottom of the channel and connected by means of a ring piping and pump station, and mounted for movement along the channel of the flute washing the substrate surface of a spawning pool located perpendicular to the direction of water flow in the channel. 4. The complex according to claim 1, characterized in that it is equipped with mesh screens installed between the spawning tombs and the collection tray of larvae, 5. The complex according to claim 1, characterized in that the annular channel has two opposite curved sections, the supply channel is tangentially connected to the side wall of the annular channel, and the outlet section of the outlet channel is located on one side of the annular channel in place of its bend, 6. A complex according to claims 1 and 5, characterized in that the inner side wall of the annular channel on the straight sections is made of successively installed cassettes of drainage material for the passage and accumulation of water in the internal cavity formed by the cassettes and walls of the channel, and the pump station is installed in the last / // FIG. g t & § s W Ј23333332K. 333Ј 81 / -app 2ЈK. / 333ЈЈZ3SЈ23 & ЈZ3i : G2222EH222Ts xfysog Ј M $ s ZSLSSLl 22 2 J 25 FIG. five