SU1541342A1 - Fish-protecting device for intake pipe - Google Patents

Abstract

The invention relates to hydraulic engineering, in particular to fish protection devices in water intake structures. The purpose of the invention is to increase work efficiency by performing self-flushing of the net and improving fish removal. The fish protection device to the suction nozzle includes a mesh drum 1 installed in the water course with the possibility of rotation, blades 2 pivotally attached to the facets of the prism, abutments 3, drive 4 and fish diverters with ejector visors. The grids 7 of the drum 1 are cylindrical, mounted on axles 8 rotatably from the actuator 4, while the actuator 4 is designed as jet blades 9. When the pump is turned on, water passes through the outer side of the cylindrical grids 7, falls on the jet-deflecting blades 9 and through the inner side of the grids 7, limited by the casing 11, enters the suction port of the pump. The young of the fish are then transported to fish spawners 5, with which they are taken outside the device. 2 Il.

Description

a rotary drum mesh 1, blades 2 pivotally attached to the faces of the prism, stops 3, and a drive 4 fish diverters with ejecting peaks mounted in a water course. The grids 7 of the drum 1 are cylindrical, mounted on the axis x 8 rotatably from the actuator 4, while the actuator 4 is in the form of driving vanes 9. When the pump is turned on, water passes through the outer side of the cylindrical grids 7, falls on the jet ram. blades 9 and through the inner side of the grids 7, limited by the casing 11, enters the suction nozzle of the pump. The young of the fish are then transported to fish spawners 5, with which they are taken outside the device. 2 Il.

The invention relates to hydraulic engineering, in particular to fish protection devices in water intake structures.

The purpose of the invention is to increase the work efficiency by self-washing the net and improving fish removal.

FIG. 1 shows a fish protection device for the suction nozzle, top view; in fig. 2 - fish diverter with ejecting visors, vertical section.

The fish protection device to the suction nozzle includes a mesh drum 1 installed in the water course with rotation, made in the form of a regular multifaceted prism, a blade 2 pivotally attached to the prism facets, stops 3 with which the blades 2 interact, the drive 4, fish diverters 5 seconds ejecting visors 6, and the grids 7 of drum 1 are cylindrical, mounted on axles x 3 rotatably from nature 4, the latter being in the form of guide vanes 9 installed inside cylindrical grids about 7 along their periphery, and fish spuds 5 with enveloping peaks 6 are installed at the interfaces of the cylindrical grids 7 on the outside.

In addition, the fish protection device includes flexible plates 10, vertically attached to the outer side surface of cylindrical grids 7.

Cylindrical grids 7, the bases of which are made waterproof, are surrounded by shells 11.

The device works as follows.

The transit flow in which the device is located contributes to the opening of the blades 2 on one side of the drum 1 and their closure on the other side of the drum 1. As this results in a difference in the pressure exerted on the blades 2, the drum 1 begins to rotate. After turning to 60 °, the next blade 2 opens and the drum 1 is constantly in a non-uniform, stable rotation, with the movement of the blades 2 simultaneously being a deterrent factor for young fish. When the pump is turned on, water passes through the outer side of the cylindrical grids 7, falls on the jet-deflecting vanes 9 and through the inner side of the cylindrical grids 7, limited by the casing 11, falls into the suction port of the pump. The pressure exerted by the flow of water on the jet-deflecting blades 9, rigidly attached to the bases of the cylindrical grids 7, causes them to rotate around the axes 8, Since the clogging area — the outer side of the cylindrical grids 7 — is much greater than the inner one, which is limited by the casing 11, the water flow rates are greater clogging, which contributes to effective cleaning of grids 7 from litter.

Due to the presence of ejecting peaks 6, installed at both ends of the fish leads 5, fish are diverted from the fish protection device into the transit flow.

The removal of young fish from cylindrical nets 7 is also facilitated by flexible JO plates, ensuring the displacement of fish 0 along the screen to the fish drain 5.

Claims (2)

Claims 1. A fish protection device for the suction inlet including 515 the mesh drum, made in the form of a regular multifaceted prism, blades, pivotally attached to the edges of the prism, stops with which the blades interact, and the drive, characterized in that, in order to increase the efficiency of work by implementing self-propelled netting and improvement of fish removal, it is equipped with fish ejectors with ejecting visors, and drum nets are cylindrical, mounted on the axes with / / S 7 13426 rotation from the drive, while the drive is made in the form of jet blades installed inside the cylindrical grids along their periphery, and fish diverters with ejecting rods installed at the junction points of the cylindrical grids on the outside. ten 2. The device according to claim. Characterized in that it is provided with flexible plates vertically attached to the outer side surface of cylindrical grids. figure 1