RU81622U1 - WATER BREEDING FARM - Google Patents

Abstract

The utility model relates to hydrobiology and ecology, and in particular to devices for growing aquatic organisms and studying them under the conditions of their living, can be used in applied ecology to develop ecological systems and study issues of aquatic toxicology. Farm for breeding aquatic organisms, consisting of a rectangular tank of a hollow rigid structure - a cage equipped with end caps and a conical hollow fairing located in front. The truss structure is made of waterproof material, additionally has a lid on top, a double bottom and telescopic telescopic legs, while the upper wall and double bottom are perforated or mesh, and the holes in the bottom wall of the double bottom are smaller than the holes in the top wall of the double bottom.

Description

The utility model relates to hydrobiology and ecology, and in particular to devices for growing aquatic organisms and studying them under the conditions of their living, can be used in applied ecology to develop ecological systems and study issues of aquatic toxicology.

Currently known installation for growing salmon fish, containing a swimming pool for fish, channels for supplying and discharging water, a software device with sensors for monitoring the parameters of the habitat of fish (RU 818581, publ. 1981).

The disadvantage of this technical solution is the high energy costs, the creation of an artificial aquatic environment, the limitation in the choice of aquatic organisms that can be grown in it. In addition, the inevitable stress and injury of organisms during capture and transplantation of their pools.

Also known is an immersion device for growing fish, containing a floating platform in the form of a polygon with a central hole for placing a pontoon in it, a feed hopper, a ballast tank and an anchor device (RU 1790356, publ. 1993).

This device has a complex structure, which during operation creates difficulties.

The closest analogue, according to the applicant, is a device for the incubation of fish eggs, consisting of a hollow container of a rigid structure with mesh walls, equipped at both ends with end caps and a conical hollow fairing located in front, has blades,

located on a fairing or other part of the tank frame. The fairing is movably connected to the shaft, which, in turn, through the bearing is connected to the mounting cable. Handles are attached to the frame, and the material of which the frame is made provides a buoyancy of the device equal to zero (see RU 2192741, publ. 2002).

The disadvantage of this device is the design complexity containing movable elements that provide rotation through the bearing, which often fails, as well as the narrow focus of this device.

The technical task of the developed model is to simplify the design, expand its capabilities, while creating favorable conditions for the development and functioning of aquatic organisms.

The claimed installation is intended for the effective implementation of measures to compensate for damage to the water area in connection with the violation of the marine and river ecology, the construction of the PSPP and can be used not only for breeding aquatic animals (aquaculture), but also for breeding commercial and rare endangered species of mollusks and studying them reproduction mechanism.

The task is achieved by the fact that the design of the device includes a rectangular hollow tank - a cage with a rigid structure with a double bottom and covers in the upper part and from both ends of the structure, with telescopic extendable legs. To flow around the water stream, the cage is equipped with a hollow crescent moon fairing, which performs a nano-protective function. The device is made of waterproof material, with the exception of the bottom (first and second level) and the cover of the upper part of the charge.

Thus, the claimed farm for breeding aquatic organisms, consisting of a rectangular container of a hollow rigid structure - a cage, equipped with end caps and a conical hollow fairing,

located in front, differs from the closest analogue in that the structure is made of waterproof material, additionally has a lid on top, a double bottom and telescopic telescopic legs, while the upper wall and double bottom are perforated or mesh, and the holes in the bottom wall of the double bottom are smaller than cell holes of the upper wall of the double bottom.

Depending on the task, the device can be installed in any body of water (sea bays, rivers, artificial reservoirs) with any bottom topography, because the structure of the telescopic legs allows you to set the device horizontally at any height and reliably strengthen the structure at the bottom of the reservoir.

The device is installed at a height that ensures the passage of turbulent water flows through the double bottom of the cage from the bottom up, which allows you to create the necessary flow and hydrological regime in natural reservoirs.

A cone-shaped or crescent-shaped fairing, made of waterproof material, acts as a hydrodynamic silencer and dampens the pressure of water and removes sea or river garbage.

At the same time, the installation is mobile and under appropriate conditions of the need to move it to the places of the most favorable content of aquatic organisms in the water area, which has an optimal temperature of vital activity and reproduction of organisms, an increased concentration of feed, etc., is easily relocated.

It is this device design that allows you to expand its functionality and use it for various purposes, namely, to grow fish fry in natural conditions for it, thereby growing viable juveniles of freshwater mollusks, egg incubation, etc. This listing does not in any way limit the possible use of the claimed device. For

widespread application of this design is obvious to the specialist.

When breeding salmon, for example, trout, a good oxygen saturation of the water is required, an appropriate pH value, good flow rate, low pollution, sufficient depth. In addition, the condition of the fish depends on the incoming nutrition, the release of ammonia, carbon dioxide and other factors. Together, to create the indicated natural conditions, it artificially requires large energy and labor costs.

At the same time, when using the claimed device in the source of the natural habitat of marine organisms, it saves not only energy and labor costs, but also land resources. However, this does not limit the ability to install it also in the already created artificial canals and workshops of hatcheries.

The lower and upper walls of the double bottom of the charge have different diameters of the holes. So, for example, during incubation of fish eggs, the diameter of the holes of the bottom wall of the double bottom should be less than the diameter of the eggs of the fish, and the diameter of the holes of the upper wall of the double bottom is such that the fish fry freely penetrate into the space of the cage.

Brief Description of the Drawing 1.

The device is a rectangular cage 1 having a rigid structure with covers on top 2 and from both end ends 2a. The cage in front is equipped with a cowl 3 and telescopic telescopic legs 4. The cage has a double mesh or perforated bottom 5, and the cells of the openings of the bottom wall of the bottom are smaller than the cells of the openings of the upper wall of the double bottom. The top cover 2 is mesh.

The implementation of the utility model is disclosed in the following examples.

Example 1. The breeding of freshwater bivalve mollusk Pearl.

In the river pond in the places of rolling, where salmon stand before spawning, this structure is installed, which contains a rectangular cage 1 having a rigid structure with lids on top 2 and from both end ends 2a. The cage in front is equipped with a cowl 3 and telescopic telescopic legs 4. The cage has a double mesh bottom 5, and the cells of the openings of the bottom wall of the bottom are smaller than the cells of the openings of the upper wall of the double bottom. The top cover 2 is mesh.

Salmon enters the cage through the end cap. Pregnant female mollusks are placed in the double bottom gap. The turbulent flow created by the flow of the river due to the presence of a fairing and the height of the cage on telescopic legs, Pearl eggs penetrate through the holes (mesh) of the upper double bottom wall and settle on the gills of the salmon, where they parasitize. On average, the number of glochidia - Pearl larvae, in the gills of salmon is determined in proportion to the time spent over the Pearl colony colony. This method of reproduction of the Pearl mussel listed in the Red Book makes it possible to increase the number of Pearl mussel in the river water area by 4-5 times. Salmon change in the cage occurs once every two weeks, which does not adversely affect the reproduction of salmon itself, since after entering the river it stops feeding.

To maintain the vital activity of fish, the use of additional devices for enriching water with oxygen by air (as in artificial reservoirs), vessels with food and other additional devices is not required.

Example 2. When growing salmon, it is preferable to use sea water of a certain salinity, the iron content in the water, since the growth of fry can change with equal feeding up to 5 times with equal water composition. The device is installed in the Gulf of Finland. The design contains a rectangular cage 1 having a rigid

design with covers on top 2 and from both end ends 2a. The cage in front is equipped with a cowl 3 and telescopic telescopic legs 4. The cage has a double mesh bottom 5, and the mesh cells of the lower wall of the bottom are smaller than the cells of the hole of the upper wall of the double bottom. The top cover 2 is mesh.

In the Gulf of Finland, the oxygen content in the water varies widely enough depending on the waves and the strength of the wind at sea and other atmospheric factors.

Natural aeration of water is achieved due to the presence of a fairing in combination with telescopic legs, which allow the device to be set to the required height, which creates a turbulent flow from the bottom of the structure. Side waterproof walls maintain the direction of this turbulent flow from the bottom up.

When growing fry of fish, pebbles are laid in the double bottom, which serves as an additional filter for coarse sand, and a spawning substrate for feed organisms.

Thus, when using such a plant in open water bodies, the economic effect is obvious due to the release of land regarding the construction of fish factories, in addition, with a minimum of constructive solutions, the use of this device is convenient for low labor costs with high returns.

Claims (1)

Farm for breeding aquatic organisms, consisting of a rectangular container of a hollow rigid structure - a cage equipped with end caps and a conical hollow fairing located in front, characterized in that the structure is made of waterproof material, additionally has a lid on top, a double bottom and telescopic telescopic legs this upper wall and the double bottom are perforated or mesh, and the cells of the holes of the lower wall of the double bottom are smaller than the cells of the holes of the upper wall of the double bottom.