RU2536631C1 - Fish protection apparatus with fish diversion device - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydraulic engineering, namely to fish protection apparatuses, and is designed to protect juveniles and full-grown fish during the water intake. Fish protection apparatus comprises a receiving chamber 1, mesh fence, cleaning tool with brush 11, fish diversion tool and fish pump. Housing 15 of the fish pump is formed as two truncated cylinders. In each of the two truncated cylinder hollow cylinders 16 with a vertical rotating shaft are eccentrically mounted with a clearance. With that, one cylinder 16 rotates clockwise, and the other one counterclockwise. Suction chamber 1 is made in the form of two helical sections 3 with the central dividing wall 2. In each of two sections 3 mesh fences are installed made as mesh cylinder 6 with a vertical rotating shaft. With that mesh cylinders 6 rotate in the direction of the receiving window 7 of the fish diversion device located at the junction of the wall of the helical chamber 8 and the central dividing wall 2. Cleaning device with brush 11 is permanently installed near the receiving window 7 of the fish diversion device. The reception window area 7 of the fish diversion device is adjacent to the lateral surface of the mesh cylinder 6. Receiving window of the fish diversion apparatus 7 is connected to the receiving pipe 12 of the fish pump. Outlet pipe 13 of the fish pump is connected to the pipe 14 of the fish diversion apparatus.

EFFECT: efficient collection and removal of juvenile and full-grown fish into fish diversion apparatus is ensured.

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Description

The invention relates to hydraulic engineering, in particular to fish protection devices, and is intended to protect juveniles and adult fish during water intake.

Known fish protection head of the intake device, mounted with a pipe to the suction line of the pump and containing a cylindrical drum fitted with a fine mesh filter mesh, rotating on bearing supports inside the cylindrical drum and forcing the filter mesh to be cleaned by a washing flute, the working part of which consists of two jet formers, and which feeds a flute conduit connected to the pressure line of the pump, and is also equipped with a supply flute conduit connected to the atmosphere, o the dyne of the two flute blowers is made in the form of a right, and the second in the form of a left spiral with a step equal to the working height of the cylindrical drum and external diameters providing the necessary clearance between the blowers and the drum, the first of the blowers is designed to form water, and the second - for water-air jets, the supply of water and air to the jetters is carried out through a distributor, combined with the housing of the bearing support and providing a separate supply of working media in the jetizer (RF patent №2266366, E02B 8/08, publ. December 20, 2006).

The disadvantage of the analogue is the complex design of the flute for operation, which requires a compressor and a water pump.

Closest to the proposed invention is a fish protection device containing a flat mesh fence located horizontally at a 12 ° angle to the water stream, a cleaning device made in the form of an endless belt along which brushes are attached and installed above the mesh fence, a garbage collection bin and a gutter -fishery (DS Pavlov, AM Pakhorukov. Biological principles of protecting fish from getting into water intake facilities. - M.: “Food Industry”, 1973, p. 109).

The disadvantages of the prototype is the irrational rectangular shape of the mesh fence, requiring large areas of fish protection structures; complex design of the treatment device and inefficient collection of fish in the gutter-fish outlet.

The technical result, the achievement of which the present invention is directed, consists in the selection of a rational form of a mesh fence, a stationary design of a treatment device and the effective collection and removal of juvenile and adult fish into a fish drain.

To achieve the technical result, in the fish protection device with a fish outlet containing a receiving chamber, a mesh fence, a cleaning device with a brush and a fish outlet, an additional fish pump is installed, the casing of which is made in the form of two truncated cylinders, in each of which hollow cylinders with vertical a rotation shaft, with one cylinder rotating clockwise and the other counterclockwise, the receiving chamber is made in the form of two spiral sections with a central p a separating wall, in each of which mesh barriers are installed, made in the form of mesh cylinders with a vertical shaft of rotation, while they rotate towards the receiving window of the fish outlet located in the zone of the junction of the wall of the spiral chamber and the central separation wall, the cleaning device is stationary installed in the receiving zone the fish outlet window adjacent to the generatrix of the lateral surface of the mesh cylinder, the fish outlet receiving window is connected to the receiving pipe of the fish pump, and the outlet pipe of the fish pump dsoedinena rybootvoda to the pipe.

Distinctive features of the proposed device from the one closest to the above are: additional installation of the fish pump, execution of its body in the form of two truncated cylinders, eccentric installation with a gap in each truncated cylinder of a hollow cylinder with a vertical shaft of rotation, and one cylinder rotates clockwise and the other counterclockwise, the receiving chamber in the form of two spiral sections with a central dividing wall, the installation in each of the spiral sections a mesh fence made in the form of mesh cylinders with a vertical shaft of rotation, installing a cleaning device stationary in the area of the receiving window of the fish outlet adjacent to the generatrix of the side surface of the mesh cylinder, connecting the receiving window of the fish outlet to the receiving pipe of the fish pump, and the outlet pipe of the fish pump to the fish removal pipe.

Due to the presence of these signs, during the operation of the fish protection device with a fish drain, a smooth decrease in flow rates through the mesh cylinder net towards the fish drain window is achieved, effective removal of fine debris from the side of the rotating mesh cylinder by brush and its and fish with the water flow into the fish drain receiving window .

The proposed fish protection device with fish outlet is illustrated by the drawings shown in figures 1 and 2.

In Fig.1 shows a fish protection device with a fish outlet (plan), Fig.2 - its longitudinal section aa.

The fish protection device with a fish outlet contains a receiving chamber 1, divided by a central dividing wall 2 into two spiral sections 3. In front of the receiving chamber 1 there is a coarse grate 4 frontally equipped with a grating-cleaning machine 5 for collecting large debris. In each spiral section 3 mesh barriers are installed in the form of mesh cylinders 6 with a vertical shaft of rotation. The receiving window 7 of the fish outlet is located in the joint area of the wall of the spiral chamber 8 and the central separation wall 2. The electric drive 9, the cantilever wall 10. A cleaning device with a brush 11 is located at the end of the central separation wall 2. The receiving window 7 of the fish outlet is connected to the receiving pipe 12 of the fish pump the pipe 13 of the fish pump is connected to the pipe 14 of the fish branch. The housing 15 of the fish pump is made in the form of two truncated cylinders, in each of which hollow cylinders 16 with a vertical shaft of rotation from the electric drive 17 are eccentrically installed with a gap 17. Under the mesh cylinders 6 there is a bottom gallery 18, which communicates with the receiving pool 19 of the pump station 20.

The work of the fish protection device with fish drain is as follows.

When the pump station 20 is operating, the stream of fish and garbage passes through the coarse grate 4, large debris is delayed and removed from the grate by the grating machine 5. Small garbage and fish enter the receiving chamber 1, which is divided by the central dividing wall 2 into two spiral sections 3.

Since there are two spiral sections 3 in the fish protection device and their operation is identical, we consider the operation of only one spiral section 3. The difference is that two mesh cylinders 6 and two hollow cylinders 16 rotate around the vertical shafts towards each other. The rotation of the mesh cylinders 6 is carried out by an electric drive 9 with a frequency of not more than 2 revolutions / minute, and the rotation of the hollow cylinders 16 from the electric drive 17 ranges from 10 to 100 revolutions / minute depending on the performance of the fish pump. Next, the stream with fish and garbage of the receiving chamber 1 flows onto the mesh cylinder 6, passes through its mesh and enters the bottom gallery 18. Then it enters the receiving pool 19 of the pump station 20.

In the frontal zone of the mesh cylinder 6, flow rates through the mesh can reach 0.4 m / s, and in the rear part these speeds are reduced to 0.1 m / s. This position favorably affects the passage of fish along the wall of the spiral chamber 8 to the receiving window 7 of the fish branch.

Small debris that has accumulated on the net during rotation of the mesh cylinder 6 is transferred to the brush 11 of the treatment device, it is knocked down by it and first enters the receiving window 7 of the fish outlet, then it enters the receiving tube 12 of the fish pump and then into the housing 15 of the fish pump. The cantilever wall 10 directs the flow of fish and garbage to the mesh cylinder 6. The fish pump operates on the basis of the boundary layer (viscous resistance).

When the hollow cylinders 16 rotate, the stream of fish and debris is captured by the side surface, acquires greater speed and creates a vacuum in the gap between the hollow cylinders 16. This stream is sucked into this vacuum zone (about 2% of the water intake capacity), sufficient for the effective removal of fish and small debris through the outlet pipe 13 of the fish pump and then through the pipe 14 of the fish drain returns to the water source outside the zone of the water intake. In the gap, the fish does not come into contact with the lateral surface of the hollow cylinders 16 and without injuries enters the fish drain pipe 14, where the flow velocities decrease to 1 m / s. Then a viable fish goes back into the reservoir beyond the limits of the water intake. The pump station 20 draws water from the intake pool 19 without fish.

To preserve juvenile fish with a body length of 12 mm, it is necessary to use a grid with a mesh of 2 × 2 mm with a hole ratio of 64%.

The proposed fish protection device with fish drain allows you to increase the efficiency of protection of juvenile fish up to 80%, and adult fish up to 95% and effectively clean the net from small debris and ensure reliable operation of the intake with the pump station.

Claims (1)

A fish protection device with a fish outlet, including a receiving chamber, a mesh fence, a cleaning device with a brush and a fish outlet, characterized in that it additionally has a fish pump, the body of which is made in the form of two truncated cylinders, in each of which hollow cylinders with vertical a rotation shaft, with one cylinder rotating clockwise and the other counterclockwise, the receiving chamber is made in the form of two spiral sections with a central dividing wall, in Each of them has mesh barriers made in the form of mesh cylinders with a vertical shaft of rotation, while they rotate towards the receiving window of the fish outlet located at the junction of the wall of the spiral chamber and the central separation wall, the cleaning device is stationary installed in the zone of the receiving window of the fish outlet adjacent to to the generatrix of the lateral surface of the mesh cylinder, the receiving window of the fish outlet is connected to the receiving pipe of the fish pump, and the output pipe of the fish pump is connected to the fish pipe water.

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