RU71509U1 - CAVIAR INCUBATION DEVICE - Google Patents

Abstract

The utility model relates to fish farming and can be used in enterprises engaged in the artificial reproduction of fish stocks. To achieve a technical result in a device for the incubation of eggs containing a chamber with side, front and rear walls, a perforated tray, a hole for the exit of the larvae and an artificial incubation substrate, the chamber is equipped with a lid, in cross section made in the shape of a triangle which is located at an angle from 0 to 15 ° to the flow, the artificial incubation substrate is made in the form of a perforated tuberous septum installed in the chamber above the pallet and parallel to it, and the lower edges of the side walls of the chamber are filled with an angle of inclination of 10-30 ° to the horizontal, while the hole for the exit of the larvae is made in the rear wall of the chamber and is equipped with a nozzle mounted at an angle from 0 to 15 ° to the horizontal. The technical result of the utility model is the ability to use the device in various river conditions, including in streams with a high content of suspended sediment, and in streams with insignificant depths. 5 zpf; 2 ill.

Description

The utility model relates to fish farming and can be used in enterprises engaged in the artificial reproduction of fish stocks.

A device for incubating eggs is known, comprising a chamber with side, front and rear walls, a perforated tray, an exit hole for the larvae and an artificial incubation substrate. The chamber is made in the form of a hemisphere and is filled to 1 / 4-1 / 3 of the volume with granules whose density is less than the density of water. The larva exit hole is located at the apex, and the chamber walls are perforated. The chamber is also equipped with a perforated tray with granules and a spawning substrate placed in mesh shells. The granules are made on the basis of expanded clay, noisegum or expanded calcined clay, and pebbles or gravel with a diameter of 10-25 mm are used as spawning substrate (RU No. 46627, class A01K 61/00, 2005).

The use of the known device is possible only in river flows with clean water, in which there are no sediments, as well as in rivers with great depths. As a rule, in natural river flows there are suspended sediments. In this case, the maximum amount of sediment is observed during the passage of maximum water flow rates, i.e. when passing floods. The sediment that enters the chamber together with the river flow, with a decrease in the flow velocity inside the chamber, settles on the substrate and eggs, which leads to the cessation of oxygen access to the eggs and its death. In addition, a critical decrease in depths in winter can lead to the freezing of a known device, and to the death of caviar. The device can be destroyed by ice drift or rafting.

The objective of the utility model is to develop a new design of a device for the incubation of eggs with the condition of its use in natural river conditions.

The technical result is the possibility of using the device in various river conditions, including in streams with a high content of suspended sediment, and in streams with insignificant depths.

The task and the specified technical result is achieved by the fact that in the device for the incubation of eggs containing a chamber with side, front and rear walls, a perforated tray, an exit hole for the larvae and an artificial incubation substrate, according to a utility model, the camera is equipped with a lid in the shape of a triangle which is located at an angle from 0 to 15 ° to the flow, the artificial incubation substrate is made in the form of a perforated tuberous septum installed in the chamber above the pallet ohm and parallel to it, and the lower edges of the side walls of the chamber are made with an angle of inclination of 10-30 ° to the horizontal, while the hole for the exit of the larvae is made in the rear wall of the chamber and is equipped with a nozzle mounted at an angle from 0 to 15 ° to the horizontal. In this case, the pallet in the chamber is located at a distance of 10-20 mm above the lower edge of the frontal wall, located in the direction of the water flow. The angle at the top of the cover is made from 170 to 90 °. The hole for the exit of the larvae is made with a cross-sectional size from 10 mm to 20 mm, and the length of the nozzle is from 50 to 80 mm. It is advisable to make the perforated tuberous septum in the form of a rug with the height of the tubercles from 2.5 mm to 4.0 mm, while the perforation holes should be made in diameter from 3.0 to 4.0 mm. For additional fastening of the device to the soil of the watercourse, a fastener is attached to the front and / or rear wall.

The utility model is illustrated by drawings, in which Fig. 1 shows a longitudinal section of a device for incubating eggs, and in Fig. 2 its cross section.

The device comprises a chamber 1 with side walls 2, a cover 3, a perforated tray 4. Inside the chamber, parallel to the pallet 4, an artificial incubation substrate 5 is installed in the form of a perforated tuberous partition with a height of tubercles from 2.5 mm to 4.0 mm and a hole diameter of perforation from 3.0 to 4.0 mm. The lower limit of the size of the tubercles (2.5 mm) determines the stability of the position of individual eggs 6 on the artificial incubation substrate 5 during the entire period of maturation, the upper limit (4.0 mm) - safe conditions for the maturation of eggs and the development of larvae. The dimensions of the perforation holes of the artificial incubation substrate 5 provide the maximum oxygen supply together with water from the under-stream stream 7 to the eggs and, at the same time, the larva cannot penetrate into the space between the tray and the rug, where they can die without finding a way out of this space. To improve the attachment of the device to the bottom of the watercourse and create optimal conditions for the entry of the under-flow stream 7 into the device, the pallet is located in the chamber at a distance of 10-20 mm above the lower edge of the front wall 8, located in the direction of the water flow, and the lower edge of the rear wall 9 is located on the level of the lowest point of the side walls 2, while the lower edges of the side walls of the chamber are made with an angle of inclination of 10-30 ° to the horizontal. At an angle of less than 10 °, studies show that the back wall does not affect the entry of under-stream water into the chamber, at angles of more than 30 ° the amount of incoming water does not increase in the chamber, while the large value of the back wall will prevent the device from going deeper into the ground . The hole 10 for the exit of the larvae is made in the rear wall of the chamber and is equipped with a pipe 11. The dimensions of the cross section of the hole for exiting the chamber from 10 to 20 mm are determined by the size of the larvae

salmon, as well as the creation of optimal hydraulic conditions for the incubation of eggs inside the chamber. The length of the pipe along which the larvae enter the river stream is from 50 to 80 mm and is determined by the need to create certain lighting conditions in the chamber for the development of eggs and larvae, as well as by creating the smallest distance to the bottom and optimal flow conditions for the part of the pipe output for the larvae. If the length of the pipe is less than 50 mm, penetration of light that is harmful for certain stages of development of the roe is possible, more than 80 mm - the larvae will be difficult to exit. The triangular shape of the cover 3 with an angle at the apex of less than 170 ° allows you to concentrate and release air from the device, as well as to concentrate the larvae in the upper part of the device above the cover 3 and direct them to the outlet. At an angle of less than 90 ° above the lid 3, a space constrained for the larvae is formed, while the height of the device increases, which will lead to the possibility of deformation by floating objects and ice in the river stream. The inclination of the cover 3 and nozzle 11 at an angle to the flow of more than 0 ° facilitates the exit of air and larvae from the chamber into the river flow; at angles of more than 15 °, the outlet from the nozzle is at a considerable height from the bottom, which can lead to the removal of larvae due to turbulence of the flow in its upper layers and resettlement at significant distances from the nest. In addition, at angles of more than 15 °, the nozzle 11 may be exposed to floating objects and ice. For additional fastening of the device at the installation site of the device on the front wall, a connecting element 12 is used. The fastening can be performed using a stud buried in the ground or a pre-tensioned cable to which the device is attached through the connecting element 12.

The water of the river stream 13 passes above the device, and the under-stream stream 7 passes through the chamber 1 and creates favorable conditions for the development of eggs 6 in the chamber 1, similar to those observed in the natural conditions of spawning nests.

The device operates as follows.

Before installing the device in the river flow into the chamber 1 through the pipe 11 and the hole 10 using a funnel place the required amount of caviar. Before immersion in water, the outlet 10 of the pipe 11 is closed with a stopper, in the upper part of which there is a hole for the release of air, the size of which is equal to half the diameter of the fish eggs. In water, through the hole 10 in the plug, air is discharged from the device. By swaying the device, the eggs located in the chamber 1 in water are evenly distributed over the incubation substrate 5, located in the space between the tubercles. The device is placed at the bottom of the watercourse, and immersed so that the pallet 4 is in contact with the ground, and the pipe 11 was directed downstream. Next, the cork from the pipe 11 is removed. The water of the under-stream stream 7 without sediment, due to the configuration of the lower part of the side walls 2 of the device, enters the chamber 1 and washes the eggs located on the incubation substrate 5 and is discharged through the pipe 11. Additional pipe 11 is created by the pipe 11 located on the back wall 9 of the device. After the larvae hatch from the eggs 6, they lie on their side on the substrate 5 for some time, and then rise to “melt”, concentrating under the lid 3 in the upper part of the chamber 1 and are sent due to the configuration of the triangular lid 3 mounted at an angle to flow to the outlet and exit the device through the pipe 11 in the natural flow. The rise to the "melt" can be extended in time by 1 week, so the larvae exit through the pipe 11 gradually. The fastening element 12 allows you to further secure the device to a specific section of the watercourse.

For ease of collection of all installed structures, they are interconnected through a chain, pulling which you can pull out the entire "garland" of mounds from the shore. This is especially true at high water levels.

The location of the device in the river flow, the use of caviar for washing off the eggs and supplying it with oxygen create conditions in the chamber close to those in natural spawning nests.

A device for incubating fish roe is currently at the stage of pilot testing.

Claims (6)

1. A device for the incubation of eggs, containing a chamber with side, front and rear walls, a perforated tray, an exit hole for the larvae and an artificial incubation substrate, characterized in that the chamber is equipped with a lid, in cross section, made in the shape of a triangle, which is located at an angle from 0 up to 15 ° to the flow, the artificial incubation substrate is made in the form of a perforated tuberous septum installed in the chamber above the pallet and parallel to it, and the lower edges of the side walls of the chamber are made with an angle n clone 10-30 ° to the horizontal, wherein the outlet for the larvae formed in the rear wall of the chamber and provided with a nozzle mounted at an angle of 0 to 15 ° to the horizontal. 2. The device according to claim 1, characterized in that the pan in the chamber is located at a distance of 10-20 mm above the lower edge of the front wall located in the direction of the water flow. 3. The device according to claim 1, characterized in that the angle at the top of the lid is made from 170 to 90 °. 4. The device according to claim 1, characterized in that the hole for the exit of the larvae is made with a cross-sectional size of from 10 to 20 mm, and the length of the pipe is from 50 to 80 mm. 5. The device according to claim 1, characterized in that the perforated tuberous septum is made in the form of a rug with the height of the tubercles from 2.5 to 4.0 mm, while the perforation holes are made with a diameter of from 3.0 to 4.0 mm. 6. The device according to claim 1, characterized in that a fastening element is attached to the front and / or rear wall for additionally attaching the device to the soil of the watercourse.