RU2676128C1 - Installation for fish farming for scientific purposes - Google Patents

Abstract

FIELD: fishing and fish farming.SUBSTANCE: installation includes similar aquariums made of non-toxic plastic, installed in threes or more in several rows. There are water supply and discharge systems. Above aquariums are made in the form of boxes placed on the shelves of a rack. Boxes for eggs and fish larvae are installed on one shelf. Each box is divided by a plankton net into compartments for keeping eggs and fish larvae and a compartment for diverting used water. At the bottom of the compartment for eggs and fish larvae, a frame is installed, made of a polyethylene frame with a plankton net glued onto it, and a grid is placed on top. Said boxes for eggs and fish larvae are grouped in at least three blocks on the shelf, each block including at least twelve boxes. Said shelves of the rack are provided with plastic stoppers around the perimeter, providing, when placed on the external plastic stopper, the edges of the compartment of the box for eggs and fish larvae, its slope to the surface of the shelf is at least 5°. And the outer wall of the compartment of the box is equipped with a drain hole for removal of used water. On the other shelf of the rack there are mini-aquariums for keeping fish, equipped with a drain hole.EFFECT: installation allows you to implement the planned breeding of spawners in a controlled environment.1 cl, 2 dwg

Description

The invention relates to fish farming and can be used for fish farming for research purposes, in particular for use in genetic, biochemical, toxicological and other areas of biology and aquaculture.

A known installation for growing fish and other aquatic organisms comprising a pool in which a vertical cylindrical partition is installed, dividing it into a central compartment for fish or other organisms and a peripheral compartment in which a biofilter, also having a cylindrical shape, is located above the biofilter, an annular tray for water distribution. The installation also contains a circulation pump, a mechanical cleaning filter, a thermoregulation unit, and means for saturating the water with oxygen. The vertical partition is installed so that a gap is formed between its lower edge and the bottom of the pool to pass the biologically active film into the central compartment, where it is used as additional food for fish and organisms (P. RF No. 1804295, IPC A01K 61/00, publ. 2.3 .03.93).

The disadvantages of this device include the fact that it excludes the possibility of implementing a complete scheme for growing fish, i.e. incubation of eggs and larvae growth is impossible, since there are no barriers that prevent juveniles from entering the treatment system. The installation operates in a closed cycle, as a result of which it does not provide the necessary conditions for growing fish. In addition, it is impossible to conduct biological research in it, in particular, the implementation of a particular crossbreeding scheme.

A known installation for growing juvenile fish, including a fish tank made in the form of a rectangular pool divided by vertical partitions into compartments, a closed water circulation system with filters for rough and biological water purification, a pump, an aeration device, compartments are formed in the pool by vertical partitions - the main worker for young fish, the filter compartment and the pump compartment, while in the partition connecting the working compartment with the filter compartment, there is a cutout in the upper edge of the partition through which water is poured, and in the partition between the filter compartments and the pump room, a slit-shaped slot for rolling water is located at the bottom, a drain hole is mounted at the bottom of the pool at the partition; corrugated hose and tee with an open upper pipe, to which a lanyard is connected with a lower hook, which provides adjustment of the amount of water entering and leaving the installation. One of the tee nozzles is connected to a pipe diverted into the sewer, the pump compartment is equipped with an electric pump, and an overflow hole is made in the side wall of the compartment at a certain distance from the upper edge of the pool to prevent uncontrolled rise of water, and a nozzle with a tap for supplying fresh water is introduced into the side wall , the pump is connected in series with pipes to a sterilizer, a thermoregulation unit and a circulating water supply tap in the pool, a cooling tower is fixed above the latter at the end wall of the working compartment, performing the function of aeration of water (PM RF №110927, IPC A01K 61/00, publ. 10.12.2011).

In the well-known installation it is impossible to conduct scientific research in genetic and toxicological areas, since the whole cycle of fish growing is carried out in one pool.

The closest to the claimed technical solution in terms of the number of essential features is a laboratory installation for scientific research on feeding and growing fish, which includes an aquarium made in the form of a housing with a filtration system for water purification, with a water supply system, with an overflow system, with a transparent front wall and opaque bottom, back and side walls. The installation contains at least 3 similar aquariums installed vertically in a row and at least 2 vertical rows. In each vertical row, the aquariums are interconnected by an inter-aquarium drain system made in the form of catchment pipes located in vertical inter-aquarium spaces and connected to a drain pipe. Moreover, each aquarium is connected to a nearby drainage pipe due to a drain pipe with a tap installed in the side wall at the boundary of its connection with the bottom wall. The overflow system is made in the form of segments of an overflow pipe with an overflow pipe. In addition, the lower, rear and side walls of the casing are made of polypropylene, and the front wall is made of plexiglass p. RF No. 95972, A01K 63/00 (2006.01), publ. 07/20/2010.

However, the known installation is designed to control the cultivation of fish, while ensuring the same hydrochemical regime and optimal sanitary and hygienic condition of the water, but does not allow for complex genetic studies. The use of a complex closed drainage system, including overflow pipes, connected to each aquarium, complicates not only the operation of the installation, but also worsens the content of juveniles, and creates conditions for the settlement of the installation with various harmful microorganisms.

The technical problem posed by the invention is the provision of the possibility of carrying out the planned installation of the planned scientific research on genetics and other disciplines using crosses of fish from specially selected parents and obtaining offspring from them according to the factor scheme. Such a plant for breeding fish for scientific purposes is an original invention of the authors and has not been previously described.

The claimed technical problem is solved in that in a known installation for fish farming for scientific purposes, containing at least three similar aquariums made of non-toxic plastic, installed in one row, and at least two rows, with a water supply system and a drain system, according to a useful models, aquariums are made in the form of boxes placed on the shelves of the rack, on one shelf there are boxes for keeping eggs and larvae, while each individual box is divided by a partition with an insert in the form of a plankton net into two compartments : A compartment for containing eggs and larvae, and cut for removing the used water. At the bottom of the compartment for keeping caviar and larvae, a frame is made made of a polyethylene frame with a plankton net glued on it; a grid is placed on top of the compartment for keeping caviar and larvae. Boxes for keeping eggs and larvae on a shelf are grouped in at least three blocks, with each of the blocks including at least twelve boxes. The shelves of the rack are equipped with plastic limiters around the perimeter, which ensure that the edges of the compartment for keeping eggs and larvae of the box are placed on the external plastic stopper, its inclination to the surface of the shelf is at least 5 °, the outer wall of the box for draining used water is equipped with a drain hole; On the other shelf of the rack there are mini aquariums for keeping fish equipped with a drain hole. The water supply system is made of a water tank placed above the level of the first shelf and made of plexiglass, the tank is equipped with an automatic water supply device, a flotator is placed inside the tank. In addition, a water cooler and a pipe located above the boxes and having bends made of plastic tubes that are located directly above each of the boxes and mini aquariums are connected to the tank using tubes; water is drained through the drain holes of the boxes and mini aquariums on the shelves of the rack with subsequent discharge into the sewer pipes.

The use of boxes for keeping eggs and larvae as aquariums, which are divided into two compartments by the plankton net: a compartment for keeping eggs and larvae and a compartment for removing used water allows creating the necessary hydrochemical conditions for incubating eggs and rearing juvenile fish. Installation conditions allow reliable comparative analysis, high-quality genetic and other biological studies using fish crossing and obtaining the planned offspring, including hybrids of varying degrees of remoteness.

The installation in the compartment of a frame made of a polyethylene skeleton with a plankton net glued on it provides the best aeration of the incubated eggs, which minimizes the departure of eggs, and, as a result, facilitates high-quality genetic and other studies. Supply of a compartment for keeping eggs and larvae with a net prevents juveniles from jumping out of the box. For advanced stages of juvenile development, it is envisaged to transfer it to larger mini-aquariums using the same flowing water supply system.

Providing the box with a compartment for used water with a drain hole also contributes to the creation of the necessary hydrochemical conditions, while the water is drained directly to the shelf shelf (wet table) and then to the sewer. Thus, there is a constant change of water, which reduces the possibility of the development of various pest microorganisms, creating normal conditions for research.

Placing shelves on the shelves of the rack for keeping caviar and juvenile fish, grouped in at least three blocks, and each of the blocks includes at least twelve boxes (containing 4 types of main families with three repetitions for each family), which makes it possible to implement the diallel scheme 2 × 2 crosses for dioecious fish.

The supply of shelving shelves around the perimeter with plastic stoppers, which ensure that the edges of the compartment for keeping eggs and larvae of the box are placed at an external plastic stopper, its inclination to the shelf surface is at least 5 °, provides a natural drainage of used water and facilitates the cleaning of the boxes, and thereby creates the necessary conditions for the maintenance of eggs and larvae, over which scientific research is carried out.

The use of mini-aquariums for keeping fish, equipped with a drain hole, allows timely placement of juvenile fish when they switch to external power.

The use in the installation of a water supply system, which is made from a water tank placed above the level of the first shelf, while the tank is equipped with an automatic water supply device; a flotator is placed inside the tank, a water cooler and a pipe located above the boxes and having bends made of plastic tubes placed directly above each of the boxes and mini aquariums are connected to the tank by means of tubes, which ensures a continuous change of water in each box, as well as regulation water flow. In the final result, the normal development of eggs, larvae and juvenile fish is ensured. This allows one to obtain reliable data on the inheritance of traits in the parent-child line, as well as to evaluate the variability of the offspring taking into account various influences, using the full factorial analysis scheme.

A fish breeding facility for scientific purposes is illustrated in FIG. 1, which shows a general installation diagram, and FIG. 2, which shows the box configuration diagram, with the numbers indicating the following installation details: 1 - a rack, 2 - a shelf for shelving boxes, 3 - boxes for keeping eggs and larvae, 4 - a plankton net, 5 - a compartment for keeping eggs, larvae and juveniles, 6 - compartment for the disposal of used water, 7 - frame, 8 - frame frame, 9 - plankton net, 10 - mesh, 11 - drain hole, 12 - plastic stops, 13 - shelf rack for mini aquariums, 14 - mini aquariums, 15 - a water tank, 16 - a flotator, 17 - cooler tubes, 18 - cool turer water 19 - conduit 20 taps for supplying water into the pits and small aquariums.

The fish breeding installation comprises a rack 1 having at least two shelves, on the shelf 2 there are boxes 3 for keeping eggs and larvae made of transparent non-toxic plastic, each of which is divided by a planktonic 4 network into two compartments, compartment 5 for keeping eggs, larvae and juveniles, and compartment 6 for the disposal of used water. Boxes 3 are grouped on shelf 2 in at least three blocks, with each of the blocks including at least twelve boxes. At the bottom of the compartment 5 there is a frame 7 made of a polyethylene frame 8 with a planktonic net 9 glued on it, and on top of the compartment 5 is equipped with a grid 10. The outer wall of the compartment 6 is equipped with a drain 11 hole. The shelves of the rack 1 around the perimeter are equipped with plastic 12 stops, which, when placed on them, the edges of the first compartment of the box 3, its inclination with respect to the plane of the shelf 2 of the rack 1 at an angle of at least 5 ° On the other shelf 13 there are mini aquariums 14 made of transparent non-toxic plastic with a drain hole (not indicated in the drawing). The water supply system includes a water tank 15 located above the level of shelf 2, the tank 15 is equipped with an automatic water supply device (not shown), a flotator 16 is placed inside the tank 15, in addition, a water cooler 18 is connected to the tank 15 by means of tubes 17 and the pipeline 19 located above the boxes 5 and mini-aquariums 6 and having bends 20 made of plastic tubes.

Installation works as follows.

Water for the operation of the installation is cooled by cooler 18 to the required temperature, due to its circulation through tubes 17 between cooler 18 and reservoir 15, while the water is cleaned of impurities and saturated with oxygen by means of a flotator 16, after which water through a pipe 19 through outlets 20 enters directly into the boxes 3 and mini aquariums 14. After circulation in the boxes 3 and mini aquariums 14 from the drain holes 11, water is poured onto the surface of the shelf 2 and discharged into the sewage system. To carry out an experiment on the implementation of the simplest dialloic scheme for crossing 2 × 2 bisexual fish, fertilized eggs are laid out in twelve boxes 3 in compartment 5 on frame 8 so that the upper edge of the lump of fertilized eggs is below the level of water formed when box 3 is tilted by at least 5 ° and transfusion of water through the drain hole 11. If necessary, control the intensity of water supply through outlets 20. During the incubation of eggs and hatching of fry, the plankton network 4 forms a barrier that does not allow free-floating and kinks and hatching larvae of fish penetrate into compartment 6 and be removed from box 3 by a stream of water through drain hole 11. Network 10 does not allow fish larvae to jump out of box 3. As the larvae hatch from eggs in boxes 3 and the juvenile fish transfer to their external food transferred to mini-aquariums 14 to monitor further development.

The inventive installation allows you to implement the planned crosses of producers and factor analysis of offspring with repetitions under controlled environmental conditions in three parameters (temperature, pH and O ₂ content). The installation is intended for genetic, biochemical, toxicological and other areas of biology and aquaculture.

Claims (1)

Installation for breeding fish for scientific purposes, containing at least three similar aquariums made of non-toxic plastic, installed in one row, and at least two rows, with a water supply system and a drain system, characterized in that the aquariums are made in the form of boxes placed on the shelves of the rack, on one shelf, boxes for keeping caviar and larvae are installed, while each box is divided by a plankton net into two compartments: a compartment for keeping caviar and larvae and a compartment for draining used water; at the bottom of the compartment for keeping eggs and larvae, a frame is installed made of a polyethylene frame with a plankton net glued to it; a mesh is placed on top of the compartment for keeping eggs and larvae; boxes for keeping eggs and larvae on a shelf are grouped in at least three blocks, with each of the blocks comprising at least twelve boxes; shelves of the rack are equipped with plastic limiters around the perimeter, which ensure that the edge of the compartment for keeping eggs and larvae of the box, when placed on the external plastic limiter, has an inclination of at least 5 ° to the surface of the shelf; the outer wall of the compartment for discharging used water is provided with a drain hole; on the other shelf of the rack there are mini-aquariums for keeping fish equipped with a drain hole; the water supply system is made of a tank with water placed above the level of the first shelf, while the tank is equipped with an automatic water supply system, a flotator is placed inside the tank; water cooler and a pipe connected above the boxes and having bends made of plastic tubes that are located directly above each of the boxes and mini-aquariums are connected to the tank using tubes; water is drained through the drainage holes of the boxes and mini-aquariums on the shelves of the rack with subsequent discharge into the sewer pipes.

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