RU2299292C2 - Umbrella-shaped fish protective device - Google Patents

Abstract

FIELD: hydraulic structures, particularly fish-protective devices included in water-intake systems to prevent young fish ingress in water-intake systems.

SUBSTANCE: fish protective device comprises suction tube with vertical inlet pipe coaxially arranged in water-tight cylinder with sealed top. Device also has preliminary young fish diverting system including perforated pipeline connected to compressor. The pipeline is laid on water body bottom from outer water-tight cylinder side and made as closed loop coaxial to suction pipe. Lower end of water-tight cylinder and outer side of inlet pipe define water-intake orifice. Device comprises fish-arresting screen and jet flow forming means, whish are arranged in parallel horizontal planes coaxial with each other and in suction tube. Fish-arresting screen is made as a circle having diameter exceeding that of water-tight cylinder. Jet flow forming means is made as Segner wheel and is connected with pressure pump line through supply pipeline. The jet flow forming means is located between fish-arresting screen and water surface.

EFFECT: increased efficiency of fish protection against ingress in water intake structure by creation of flow to divert fish and rubbish with the use of rotary jet flow forming means.

5 cl, 6 dwg

Description

The invention relates to hydraulic engineering, in particular to fish protection devices and structures arranged as part of water intake structures, and is intended to protect juvenile fish from getting into water intake structures.

A fish protection device [1] is known, including a suction head buried beneath the water level in a pond, a system for repelling juvenile fish, the elements of which are installed along the outer perimeter of the head, including means for generating acoustic, electric signals and forming an air-bubble curtain, while these means placed in rows with alternating types of funds affecting the young fish, with the formation between the rows of zones for free swimming of fish.

The disadvantage of this device is the complexity of its design.

A fish protection device [2] is known, including a suction pipe with a vertical inlet pipe located inside a waterproof cylinder muffled from above, a pipe aligned with the compressor, a water intake hole formed by the lower edge of the waterproof cylinder and the outer surface of the pipe of the inlet pipe.

The disadvantage of this head is the low efficiency of removal of juvenile fish, as well as the complexity of the design of the head.

The closest in technical essence and the achieved result is a fish protection device [3], including a suction pipe with a vertical inlet pipe located inside a waterproof cylinder muffled from above, coaxially with it a system for preliminary removal of juvenile fish, consisting of a perforated pipe connected to a compressor, while the perforated pipeline is located at the bottom of the reservoir on the outside of the waterproof cylinder and is made in the form of a closed ring placed coax of the suction pipe, water inlet hole formed waterproof cylinder lower edge and the outer surface of the inlet pipe.

The disadvantage of this device is the low efficiency of fish protection.

The aim of the invention is to create effective hydraulic conditions in the zone of influence of the intake head, necessary and sufficient to effectively protect juvenile fish from getting into the water intake.

The invention consists in the following.

According to claim 1 of the claims. The implementation of the device with a fish-retaining screen allows you to create a fish discharge zone in the surface horizon of the reservoir, which is cut off from the zone of active water intake.

Placing a stream-forming jet located in a horizontal plane and in a plane parallel to the fish-retaining screen allows the formation of an active fish-discharge flow around the entire perimeter of the fish-holding screen. The execution of the jet flow former in the form of a Segner wheel connected by a supply pipe to the pressure line of the pump allows the creation of hydraulic jets actively diverting young fish raised to the surface layers under the flotation effect of the air-bubble curtain outside the zone of influence of the water intake and outside the perimeter of the air-bubble curtains. Due to the presence of jet propulsion and the arrangement of the Segner wheel, the jet stream generator rotates relative to the vertical axis and ensures the formation of a fish-and-fish drainage stream in the range of 360 degrees.

The location of the fish-retaining screen and the stream-forming stream, arranged horizontally in parallel planes, coaxial to each other and the suction pipe, makes it possible to organize an effective removal of juvenile fish from surface horizons outside the zone of influence of the umbrella head.

The implementation of the fish-retaining screen in the form of a circle, the diameter of which is larger than the diameter of the waterproof cylinder and placed above the muffled end part of the waterproof cylinder, fully corresponds to the general layout of the fish protection device.

According to claim 2 of the claims. Running from the outside of the perforated pipeline coaxially with the bottom threshold allows to prevent the penetration of juvenile fish and bottom sediments from the bottom horizons into the zone of exposure of the flare of the air-bubble curtain.

According to claim 3 of the claims. The execution of the lower end part of the waterproof cylinder from the outside with the visor annular in terms of shape allows us to optimize both the boundaries of the suction plume and the magnitude of the velocity gradients formed in the immediate vicinity of the water inlet formed by the lower edge of the waterproof cylinder and the outer surface of the pipe of the vertical inlet pipe.

According to claim 4 of the claims. The option, when the surface of the visor is perforated, allows you to smooth the gradients of the filtration speeds formed in the immediate vicinity of the water inlet and the visor.

According to claim 5, the claims. The option, when the plugged part of the waterproof cylinder is made in the form of a hemisphere, is a particular constructive solution and improves the conditions for the flow involved in the zone of influence of the suction torch.

The solution to this problem is achieved by creating a new design of fish protection device. Graphic material illustrating the proposed fish protection device is presented in the following figures:

figure 1 - fish protection device, plan;

figure 2 - section aa in figure 1;

figure 3 - fish protection device, a longitudinal section, a variant with an annular visor;

figure 4 is a view of B in figure 2;

5 is a variant of a fish protection device, the plugged part of the waterproof cylinder is made in the form of a hemisphere;

6 is a variant of a fish protection device, the surface of the visor is perforated.

The fish protection device includes a suction pipe with a vertical inlet pipe 1 located inside the watertight cylinder 2, which is muffled from above, coaxially with it a system for preliminary removal of juvenile fish, consisting of a perforated pipe 3 connected to the compressor 4, while the perforated pipe 3 is located on the bottom of the reservoir with an external side of the waterproof cylinder 2 and is made in the form of a closed ring placed coaxially to the suction pipe, a water intake hole 5 formed by the lower edge th waterproof cylinder 2 and the outer surface of the pipe inlet pipe 1.

The device is equipped with a fish-retaining screen 6 and a stream-forming jet 7 arranged horizontally in parallel planes coaxial to each other and the suction pipe, while the fish-retaining screen 6 is made in the form of a circle, the diameter of which is larger than the diameter of the waterproof cylinder 2 and placed above the plugged end part of the waterproof cylinder 2, and the jet stream former 7 is made in the form of a Segner wheel, connected by a supply pipe 8 to the pressure line of the pump, and is located between the fish retaining screen ohm 6 and the surface of the water.

In addition, from the outside of the perforated pipe 3, the bottom threshold 9 can be aligned with it.

In addition, the lower end part of the waterproof cylinder 2, from its outer side, can be made with a visor 10 annular in terms of shape.

In addition, the surface of the visor 10 may be perforated.

In addition, the plugged part of the waterproof cylinder 2 can be made in the form of a hemisphere.

Fish protection device operates as follows.

The flow of water, cleaned of entrained debris and juvenile fish, through the water inlet 5 and further, through the interior of the waterproof cylinder 2 into the inlet 1, is supplied to the consumer. Due to the supply of compressed air from the compressor 4 to the annular perforated pipe 3 around the inlet 1 and the waterproof cylinder 2, an air-bubble curtain is formed, which contributes to the active lifting of juvenile fish and entrained debris to the surface horizons of the reservoir (Fig. 2), where they are concentrated. To prevent the ingress of juvenile fish into the inner space formed by the annular perforated pipe 3, the device is equipped with a fish-retaining screen 6 (Fig.2 and 3), which allows you to create a fish discharge zone in the surface horizon of the reservoir, which is cut off from the zone of active water intake. The removal of juvenile fish from the surface of the fish-retaining screen 6 is carried out by hydraulic jets formed by the jet stream former 7 located in the horizontal plane and in a plane parallel to the fish-retaining screen 6, which allows the formation of an active fish outlet flow around the entire perimeter of the fish-retaining screen 6. The execution of the stream former 7 in the form of segnerov wheel (figure 4), connected by a supply pipe 8 to the pressure line of the pump (not shown), allows you to create a hydraulic flow actively allocating juvenile fish raised in the surface layers under the influence of the flotation air bubble curtain, beyond the zone of water intake and the influence of the outer perimeter action air-bubble curtain. Due to the presence of jet propulsion and the arrangement of the Segner wheel, the jet stream former 7 constantly rotates relative to the vertical axis and ensures the formation of a fish-and-fish discharge stream in the range of 360 degrees.

The implementation of the fish-retaining screen 6 in the form of a circle, the diameter of which is larger than the diameter of the waterproof cylinder 2, and placing it above the plugged end part of the waterproof cylinder 2, fully corresponds to the general layout of the fish protection device.

An option is possible when the device is provided on the outside of the perforated pipeline 3 coaxially with the bottom threshold 9 (FIGS. 2 and 3), which prevents the penetration of juvenile fish and bottom sediments from the bottom horizons into the zone of exposure of the air bubble veil torch.

A possible embodiment of the lower end part of the waterproof cylinder 2 from its outer side with a visor 10 annular in terms of shape (Figs. 3 and 5) allows optimizing both the boundaries of the suction plume and the magnitude of the velocity gradients formed in the immediate vicinity of the water inlet 5 formed by the lower edge of the waterproof cylinder 2 and the outer surface of the pipe of the vertical inlet pipe 1.

A possible variant of the device when the surface of the visor 10 is perforated (Fig.6), which allows you to smooth the gradients of the filtration speeds formed in the immediate vicinity of the water inlet 5 and the visor 10.

A possible embodiment of the device is when the plugged part of the waterproof cylinder 2 is made in the form of a hemisphere (Fig. 5), which is a particular constructive solution and improves the conditions for the flow involved in the zone of influence of the suction torch formed by the water inlet 5.

The present invention has a simple design, which allows to simplify the layout of the fish protection device, to increase the reliability of its operation and the effectiveness of protecting juvenile fish from getting into the water intake. In addition, due to an integrated approach to the design of the device, it was possible to increase the effectiveness of fish protection.

Information sources

1. A.S. USSR No. 480382 (SU). "A method of scaring away fish", IPC A01K 61/00, A01K 79/00. Authors: Protasov V.R., Poddubny A.G., Pyatnitsky I.I., Lapkin V.V., Sumarokova I.N. Publ. 08/15/75, BI No. 30.

2. A.S. USSR No. 1381235 (SU). "Umbrella type fish protection device." IPC E02B 8/08, E02B 9/04. Authors: Lev M.I., Nikitin V.A., Bosaya N.V. Publ. 03.15.88, BI No. 10, 1988.

3. Japanese Patent No. 61-254712 (JP). "Preventer against incoming of jellyfish". IPC Е02В 9/04. Posted by: Kondo Isamu. Publ. 12.11.86, figa, b.

Claims (5)

1. Umbrella-type fish protection device, including a suction pipe with a vertical inlet pipe placed coaxially with it inside the watertight cylinder, a system for preliminary removal of juvenile fish, consisting of a perforated pipe connected to the compressor, while the perforated pipe is located at the bottom of the reservoir with an external sides of the waterproof cylinder and is made in the form of a closed ring placed coaxially with the suction pipe, a water intake hole formed the lower edge of the watertight cylinder and the outer surface of the inlet pipe, characterized in that it is equipped with a fish-retaining screen and a jet flow-forming device arranged horizontally in parallel planes aligned with each other and the suction pipe, while the fish-retaining screen is made in the form of a circle whose diameter is larger than the diameter of the waterproof cylinder , and is placed above the plugged end part of the waterproof cylinder, and the jet stream former is made in the form of a Segner wheel, soy Dinene supply line with a pressure line of the pump and is located between the fish retaining screen and the surface of the water. 2. The device according to claim 1, characterized in that on the outside of the perforated pipeline the bottom threshold is coaxial to it. 3. The device according to claim 1, characterized in that the lower end part of the waterproof cylinder from its outer side is made with a visor, annular in terms of shape. 4. The device according to claim 3, characterized in that the visor surface is perforated. 5. The device according to claim 1 or 2, characterized in that the plugged end part of the waterproof cylinder is made in the form of a hemisphere.

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