SU1037899A1 - Unit for growing fish - Google Patents

Abstract

1. INSTALLATION FOR CULTIVATION OF FISH, including a swimming pool for fish, nozzles for feeding and draining water and a chamber for collecting contaminants, the bottom of which has a cone-shaped groove with a drain hole at the apex. 4 shut off valves, characterized in that, in order to automatically discharge water from time to time from the upper and lower layers and thereby ensure more efficient removal of metabolic products, it is equipped with an additional pipe for siphon drainage and two shutters to shut off the inlet the main water inlet ports, one of which is equipped with a float, a fish basin and a chamber for collecting contaminants are installed with the formation of a mesh, a common wall, and the latter is made of mesh the material with one foot additional pipe for draining water are telescopic, and strengthened in the chamber for collecting contaminants so that its lower end is placed in the tapered recess bottom, and the valve has a cone shape and fixed to the lower end of said pipe. i0 -, V (paf.i

Description

2, Installation according to claim 1, characterized in that the mesh wall and the telescopic knee of an additional pipe for draining water

mounted so that they can be crumpled in a vertical plane, and the installation is equipped with lifting means for moving them.

i The invention relates to the fishing industry, in particular to installations for growing fish, and can be used in the industrial reproduction of fish stocks for removal from the livelihoods of fish. A fish breeding installation is known, which includes a fish basin, a water supply nozzle, a drain nozzle made in the form of a siphon with a valve, and communicated with one of them. Elbows Siphon chamber for collecting contaminants tl. To divert contaminants from the pool, the valve on the siphon is manually opened and water with feed residues and metabolic products enters the settling chamber. Such an implementation requires the cost of manual labor. The closest to the proposed technical essence and the achieved effect is a plant for growing fish, including a swimming pool for fish, nozzles for feeding and draining water, and a chamber for collecting pollution, the bottom of which has a cone-shaped depression with drain a hole at the top, blocked by a valve 2. When this device is in operation, water is drained only from the lower l layers, which does not allow the products of metabolism to be removed with sufficient efficiency. The purpose of the invention is the automatic discharge of water periodically from the upper and lower layers and thereby ensuring a more efficient output of metabolic products. To achieve this goal, a fish breeding installation, including a fish basin, nozzles for supplying and draining water and a chamber for collecting contaminants, the bottom of which has a cone-shaped recess with a drain hole at the top, which is blocked by a valve, is provided with an additional -OLMYE pipe for draining in the form of a siphon, and two flaps for closing the inlet of the main branch pipe for draining water, one of which is equipped with a float, a fish basin and a chamber for collecting contaminants are installed to form between them is a common wall, and the latter is made of mesh material, with one elbow of an additional branch pipe for draining water made telescopic And fixed in a chamber for collecting contaminants so that its lower end is placed in a conical dimple of the bottom, and the valve has the shape of a Konus and fastened to the lower end of the above pipe. . In addition, it is advisable to install the mesh wall and the telescopic knee of the additional branch pipe for draining water with the possibility of movement in the vertical plane, and to provide the installation with lifting means for their movement. Figure 1 shows the proposed installation, the overall look; in fig-. 2 - base pipe for draining water with dampers. The fish breeding plant consists of a basin 1 for fish, a chamber 2 for collecting contaminants, a nozzle 3 for supplying water and two nozzles 4 and 5 for draining water, the latter of which is designed as a siphon. Inside the basin 1, a vertical partition 6 extending to the bottom is installed at one of its end sides, forming a water supply zone 7, which communicates with the rest of the basin 1 through slot 8. Between basin 1 and chamber 2 for collecting pollution, wall 9 of the net material mounted to move in a vertical plane, and the bottom of chamber 2 is made with a cone-shaped recess 10 (in the form of a funnel), which has a drain hole 11 at the apex for draining water with contamination into the outlet elbow 12. Two flaps 13 and 14 for blocking its viod opening, one of which — the flap 14 — is equipped with a float 15 (FIG. 2) and one elbow of the nozzle 5 for draining water is made telescopic and installed in the chamber 2 for collecting contaminants so that the lower end is located in the cone-shaped recess 10. To shut off the drain hole 11, a valve 16 is provided, which has the shape of a cone and is fixed to the lower end of the nozzle 5. The outlet sections of the nozzles 4 and 5 are connected to the output bend 12, and the telescopic bend of the nozzle 5 is mounted It is movable, while the installation has lifting means 17 for moving this knee and the wall 9 of the mesh material. The proposed installation can operate with flow and circulating water supply systems. When the installation is in operation, water under the bridge 3 enters the water zone 7, where it is additionally aerated, freed from air bubbles and through the slot 8 enters the main volume of the basin 1, which contains fish. Passing across the entire width of the bottom of basin 1, the stream of water carries sediment into chamber 2 to collect contaminants. JC In addition, as it moves, fish raise precipitation and thus facilitate their demolition by the flow of water. The pollution collection chamber 2 constitutes 1 / 4-1 / 5 of the basin area 1, which allows for more efficient cleaning of the fish habitat, and the intensive discharge of concentrated pollution through the nozzle 5 ensures that they are out of installation. Intensive discharge of water occurs automatically, amounts to 25% of the total volume of water in pool 1 and is adjusted by a gap 18 formed in the telescopic elbow of the nozzle 5, where air starts to flow when the water is lowered, causing the nozzle 5 to stop working. The duration of the water discharge is 5 minutes. At the end of the discharge, feed is introduced into the fish habitat area. The water in the basin 1 through the pipe 3 flows continuously. When the normal propped level (LLH) is reached, excess water begins to drain through the pipe 4. The valve 13 sets the cross-sectional area of the drain pipe 4 and thereby regulates the amount of water discharged. As soon as nozzle 4 ceases to be discharged with water discharge, its level in pool 1 rises and at the same time raises float 15 connected to gate 14, which overlaps cutting 4, Water begins to fill the nozzle and it drops water to is regulated by a gap 18. Thus, an alternate discharge of the upper and is carried out. lower layers of water at intervals and with the duration specified by the program. If necessary, the complete catching of fish is lifted with the help of lifting means 17, the partition 9, and then the telescopic elbow of the nozzle 5 with the valve 16 and the fish through the drain hole 11 and the outlet elbow 12 is directed, for example, into the container. The presence in the installation of zone 7 of the water supply that provides the flow of water allows for an intensive aeration, quenching of the flow of water and bubbles, as well as combating water oversaturation with gases in the case of giving heated water. In addition, the main stream of water goes frontally into the fish habitat zone along the bottom, and in the rest of the volume of basin 1, due to the presence of a partition b, the fish do not experience such a stream; which reduces its energy costs to overcome it. . . Providing an automatic discharge of water to a certain level with alternating upper and lower layers makes water purification more efficient and does not require human involvement in this process, intensive removal of both settled and suspended vital products occurs. This mode of operation allows feeding at the time of filling the pool, which significantly reduces their loss, especially when feeding fish with live food. ., V -: Performing the bottom of chamber 2 with a cone-shaped recess 10 provides for self-cleaning of the bottom of this zone by the vortex flow of water formed when the valve 16 is raised, and fish are unloaded, which is very important under production conditions when tons of fish are grown in each plant. The combination of the proposed preparation and the water before it is fed into the fish habitat area and the output of metabolic products improves the growing conditions and thereby increases the growth rate of the fish. The plant can be used to raise commercial carp and trout.

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Claims (2)

1. INSTALLATION FOR GROWING FISH, including a fish pool, nozzles for supplying and draining water and a chamber for collecting contaminants, the bottom of which has a cone-shaped recess with a drain hole at the apex. blocked by a valve, characterized in that, in order to automatically discharge water periodically from the upper and lower layers and thereby ensure a more efficient withdrawal of metabolic products, it is equipped with an additional nozzle for draining water, made in the form of a siphon, and two shutters for blocking the main inlet a pipe for draining water, one of which is equipped with a float, a fish pool and a chamber for collecting contaminants are installed with the formation of a common wall between them, and the latter is made of a mesh In this case, one elbow of the additional nozzle for draining the water is made telescopic and mounted in the chamber for collecting contaminants so that its lower end is placed in a conical recess of the bottom, and the valve has a cone shape and is fixed on the lower end of the said nozzle. SU, „> 1037899 2, Installation according to claim 1, characterized in that the mesh wall and telescopic elbow of the additional pipe for draining water are installed with the possibility of movement in a vertical plane, and the installation is equipped with a lifting device for their movement.