RU75539U1 - DEVICE FOR FISHING IN FISHING LAKES - Google Patents

Abstract

The utility model is aimed at reducing the energy demand for the concentration of fish at the satellite pond, attracting it to the satellite pond and winter maintenance, as well as simplifying and cheapening the design of the device. This is achieved by the fact that in the device for growing fish in inland water bodies, consisting of a satellite reservoir and a main and auxiliary aerator-stream former, the satellite reservoir is connected to the feeding reservoir by one channel, and the main aerator-stream former is located on one of the shores of the satellite reservoir , the flow of which is directed along the coast, and the auxiliary aerator-flow former is located in the lake near the canal, 3-5 m from it or in the canal itself. This is achieved by the fact that the main aerator-flow collector takes water in a satellite pond and discharges oxygen-saturated water into it.

Description

The utility model relates to lake fish farming and can be used both for annual and perennial rearing of fish in inland ponds, lakes, elders and non-empty ponds.

A device for growing fish in inland water bodies is known, consisting of an auxiliary reservoir made in the form of a vertical waterproof fence overlapping the water column from the bottom to the surface, and an aerator-stream generator installed in the water area of the auxiliary reservoir, the flow of which is directed to the spillway channel (1). However, the known device must be installed every winter in thin ice, and in the spring - dismantled. This work requires a lot of materials and time. In addition, it is not possible to completely eliminate the penetration of water with a low oxygen content between the silt bottom and the lower selection of the fence into the auxiliary pond. The saturation of this water with oxygen requires additional power consumption. The disadvantage is that the distribution zone is saturated with oxygen

water in the water area of the reservoir at such an arrangement, and even one aerator-flow former is not enough to attract fish to the aeration zone from remote sections of large reservoirs. It is not possible to create a pronounced zone with a high oxygen content when using a single turbo aerator of low power.

A device is known for growing fish in inland water bodies (taken as a prototype consisting of a satellite reservoir and a main and auxiliary aerator-stream generator (2). However, high-power stream aerators are required to concentrate fish in a satellite reservoir and attract it to a satellite reservoir). - respectively, 11-15 and 2-3 kW, because oxygenated water intensively mixes with the water of a reservoir having a low oxygen content and is distributed over an excessively large area of the reservoir. s an two (the water inlet and the water discharge) channel, and two stop log partition. Production stoplog partitions and the second channel requires additional material costs.

The technical result from the use of a utility model is to reduce the need for electricity for the concentration of fish at a satellite reservoir, attracting

satellite pond and winter maintenance, as well as to simplify and cheapen the design of the device.

This is achieved by the fact that in the device for growing fish in inland water bodies, consisting of a satellite reservoir and a main and auxiliary aerator-stream former, the satellite reservoir is connected to the feeding reservoir by one channel, and the main aerator-stream former is located on one of the shores of the satellite reservoir , the flow of which is directed along the coast, and the auxiliary aerator-flow former is located in the lake near the canal, 3-5 m from it or in the canal itself.

This is achieved by the fact that the main aerator-flow collector takes water in a satellite pond and discharges oxygen-saturated water into it.

Figure 1 shows the proposed device, a top view. The device consists of a satellite reservoir 1, connected to the inland reservoir 2 by one channel 3 and the main 4 and auxiliary 5 of the aerator. The direction of the flow created by the flow aerators is shown by arrows 6.

The device operates as follows. When the oxygen content in the inland reservoir is 4-5 mg / dm ³ , when the farmed fish begin an active search for sections of the reservoir with

with the highest oxygen content, both flow aerators are put into operation, they are put into operation and they create a zone with a higher content in the overseas pond near the satellite pond and in the satellite pond itself compared to the highest content in the water area of the pond outside the zone aeration. If it is not possible to create a zone with the highest oxygen content using a single stream-forming aerator of a small power, a second same stream-forming aerator or a stream-forming aerator of a higher power is placed next to it. After the freezing occurs outside the aeration zone (the oxygen content drops to 0.3-0.5 mg / dm ³ and lower), the aeration zone in the lake is gradually reduced with the help of the aerator-flow control damper, and then it is turned off. The main aerator-flow former remains in operation. In a satellite reservoir, commercial fish is caught with large-backed net seine or large-mesh nets. Small fish are kept until the end of the overseas period. At the end of the overseas period, small-sized fish leaves the companion reservoir for feeding.

The proposed device was tested on Lake Naumkovo in the Nizhnetavdinsky district of the Tyumen region. In the winter of 2006-2007, on this lake he worked as the main turbo aerator H19 - IAL with a power of 3 kW, and as auxiliary H19 -

IAM with a capacity of 0.55 kW design FSUE Gosrybtsentr. In February, the H19 turbo-aerator - IAL was turned off. The turbine aerator H19 - IAM remained in the work until the end of the overseas period. The oxygen content in the satellite pond at the end of the overseas period was high (7-8 mg / dm ³ ). Carp wintered safely. Currently, there is one turbo aerator with a capacity of 0.25 kW, respectively, in the satellite reservoir. The oxygen content as of March 1, 2008 was 4.6 mg / dm ³ . That is, what is required for the winter maintenance of carp (according to Sukhoverkhov F.M. should be in the range of not lower than 1.5 and not higher than 5.0 mg / dm ³ ).

The proposed device has the following advantages over the prototype. The power of both the auxiliary and the main aerator-flow former was reduced several times. In addition, the design of the device has become simpler, and its manufacture is cheaper.

SOURCES OF INFORMATION 1. RF patent 2139656, publ. 10/20/1999

Claims (2)

1. A device for growing fish in inland water bodies, consisting of a satellite reservoir and a main and auxiliary flow aerators, characterized in that the satellite reservoir is connected to the feeding reservoir by one channel, the main flow aerator being located off one of the shores of the satellite reservoir , the flow of which is directed along the coast, and the auxiliary aerator-flow former is located in the lake near the canal, 3-5 m from it or in the canal itself. 2. A device for growing fish in inland water bodies according to claim 1, characterized in that the main aerator-flow collector takes water in the satellite reservoir and discharges oxygen-saturated water into it.