RU2337210C1 - Input end wall of fishway - Google Patents

Abstract

FIELD: construction; mechanics.

SUBSTANCE: fishway input end wall includes downstream part of fishway path located in channel downstream, implemented as benched or slope conveyor or channel with longitudinal slope sideways channel downstream containing vertical transverse separation walls and inlet separation wall, forming input fishway chamber with located inside by the full width of fishway chambers swimming in holes of rectangular, square or round shape. By perimeter of holes there are located stream forming bleeds angularly or parallel to holes axes, which are outfitted by obstructing screens as bleeds are inside formed by screens outlet part of swimming in hole and located parallel to screen wall surface of adjoined obstructing screens. Outlet holes of bleeds are located directly inside of swimming in holes between planes of lateral surfaces cross separation walls or inside of autonomous channel. Input separation wall of fishway input end wall with swimming in hole is implemented in plane by circular arc with formation of cylindrical surface and swimming in hole is located along the full length of input separation wall of fishway input end wall. Swimming in hole has shape of hole situated on diagonals cross and orthogonal to cylinder axes square.

EFFECT: increasing of efficiency for fish attraction from big width of water course in channel downstream of hydrosystem.

2 cl, 4 dwg

Description

The invention relates to hydraulic engineering, and in particular to methods and structures designed to attract and transfer fish producers through retaining structures to spawning and feeding grounds.

Known fish passage for the passage of fish from the lower tail of the hydroelectric system to the upper one, proposed by O. Vvedensky and Polyanin A.Ya. (RF patent No. 2130990, CL ЕВВ 8/08, published. 1999.05.27, Bull. No. 15; Application No. 2006113903 dated April 24, 2006) and the design of a pump-ejector installation for transporting liquid from the first section to the second, higher section proposed by Vvedensky O.G. and Polyanin A.Ya. (RF patent No. 2178480, class ЕВВ 8/08, published. 2002.01.20, Bull. No. 2), containing drainage trays open from above with transverse vertical dividing walls, separation walls made with rectangular fish-shaped openings located in their lower part equipped with obstruction peaks, along the perimeter of which inside the obstruction peaks there are jet-forming nozzles.

In addition, the design of the fish passage proposed by A. Chistyakov is also close in terms of the technological scheme and the achieved result. (RF patent No. 2236501, CL ЕВВ 8/08, published. 2004.09.20), including a fish passage connecting the lower and upper heads of the hydraulic system, made in the form of chambers connected by transverse partitions and placed in steps or in the form of a channel channel with longitudinal slope towards the downstream side, bottom inlet openings made in transverse partitions, and inlet openings from the upstream side are made with jet forming nozzles in communication with the source of the working medium and placed above and below the longitudinal axis of the inlet hole, while the nozzles are oriented at an acute angle to the longitudinal axis of the inlet openings, and the nozzles are located between the shielding visors placed along the perimeter of the inlet hole above and below the installation plane of the jet nozzles, so that the nozzles are inside the outlet formed by the visors of the inlet hole and are located parallel to the plane of the adjacent shielding visor, so that the jet forming nozzles are made along the entire perimeter of the float hole, with the outlet openings of the nozzles are located directly in the inlet openings between the planes of the lateral surfaces of the transverse partitions, and distributing manifolds are made inside the transverse partitions, the inlet openings may be square, rectangular or round in shape, or the inlet openings in the transverse partition may be half-way, or the inflow height the openings on the downstream side are larger than the same height on the upstream side, as well as the end sections of the pressure pipe, etc. adjacent to the nozzles, can be equipped with twisting devices that allow the hydraulic jets to be twisted clockwise, counterclockwise, towards each other or in various combinations, in addition, the transverse partition can be made with additional through holes communicating with the upper and lower level, while inside these holes coaxially with the formed autonomous channels placed jet forming nozzles.

The main common drawback of these designs of fish passageways is the coverage of a small part of the width of the watercourse to attract fish to the fish passage, and hence the low efficiency of fish passage in the direction of the upper pool.

The aim of the invention is the creation of effective conditions for attracting fish with a greater width of the watercourse in the downstream of the waterworks.

The invention consists in the following.

According to claim 1 of the claims. The implementation of the input dividing wall of the fish passage (the entrance tip of the fish passage) in plan along an arc of a circle with the formation of a cylindrical surface will make it possible to cover a large part of the watercourse in front of the fish passage, including the lateral approach paths, with an attracting stream.

According to claim 2 of the claims. The implementation of the fish passage (inlet) hole in the input dividing wall of the fish pass (input head of the fish pass) in the form of a rectangle projected onto the plane orthogonal to the vector lying at the intersection of the diagonals of the hole and orthogonal to the axis of the cylinder allows a continuous (inextricable) attracting flow along the entire length of the input dividing wall of the fish passage (input tip of the fish passage).

The solution to this problem is achieved by creating a new design of the head of the fish passage. Graphic material explaining the essence of the invention is presented in the following drawings:

figure 1 is a General diagram of the fish passage with an input tip and the method of its placement in the alignment of the dam hydroelectric station;

figure 2 - diagram of the fish passage with the input tip on the plan view;

figure 3 is a diagram of the device of fish passage (sinking) holes in the inlet dividing wall of the fish passage (inlet head of the fish passage) and in the transverse (dividing) partitions in the section;

4 is a view of the fish passage (sinking) hole in the inlet dividing wall of the fish passage (inlet head of the fish passage).

The fish passage (figure 1) is placed in the alignment of the dam 1 of the waterworks and is performed in the form of an open step, inclined or inclined-step overflow channel (fish passage path) 2, connecting the upper and lower downstream of the waterworks. Inside the spillway of the fish passage path 2, vertical transverse (dividing) walls 3 are installed (Figs. 1-2), dividing the total pressure of the water system into parts (1 ... 5 m) and forming the fish passage chambers. In the dividing walls 3, fish passage (swim) holes 4 are made. The inlet head of the fish passage is made in the form of a separation wall 5 (inlet separation wall of the fish passage), made in plan in a circular arc and representing a cylindrical surface. In the inlet head 5, a fish passage (inlet) hole 6 (Figs. 1-4) is also provided, which is located along the entire length of the inlet dividing wall of the fish passage 5 (inlet head of the fish passage) in order to increase the coverage area by the attracting stream in the downstream of the waterworks. Also, to increase the area of the attracting plume, the central angle in terms of the input dividing wall of the fish passage 5 (input tip) can reach a value of 270-300 ° (Fig. 2). All fish passage (swimming) openings 4 and 6 of the fish passage are equipped with barrier visors 7 (Fig. 3) formed by shielding barrier walls installed along the entire perimeter of the passage (fish passage) holes 4 parallel to the axes of the jets. Inside the barrier visors around the perimeters of the fish passage (inlet) holes 4, 6 (Fig. 3), jet-forming nozzles 8 are located parallel or at an angle to the axis of the fish-passage hole 4 or 6. The jet-forming nozzles 8 are connected via a pressure pipe 9 to the pump.

In addition, the fish passage (inlet) hole 6 in the inlet dividing wall of the fish passage 5 (inlet head of the fish passage) is made in the form of a rectangle projected onto the plane 10 orthogonal to the vector 11 lying at the intersection of the diagonals 12 of the hole 6 and orthogonal to the axis of the cylinder 13 14 (Fig. 4).

Fish passage works as follows.

The working fluid (water) is supplied to the nozzles 8 from the pressure pipelines 9 (Fig. 3) from the pumps, which are placed along the perimeters of the fish passage (vplivny) holes 4 or 6. When water flows through these nozzles 8, rows of parallel hydraulic jets are formed, which, interacting among themselves, contribute to the formation of 4 or 6 zones of partially equal pressures (backpressure plots) in front of the fish passage (swimming) openings (4). Thanks to the creation of zones of partially equal pressures, fish producers can freely pass through the fish passage from the lower tail of the hydraulic system to the upper tail. The manufacture of the input dividing wall of the fish pass 5 (Fig.1-2) (the input tip of the fish pass) in plan along an arc of a circle with the formation of a cylindrical surface allows you to create a powerful attracting plume in the lower pool of the waterworks. And the placement of one fish passage (sinking) hole 6 along the entire length of the input dividing wall of the fish passage 5 will make it possible to obtain a stable (inextricable) attracting stream.

The proposed entrance head of the fish passage for attracting and passing fish from the lower tail of the hydraulic system to the upper tail allows you to create a controlled backpressure in front of the inlet (fish passage) holes of the fish passage and a uniform, adjustable, stable and powerful fish attracting stream, which maximally contributes to independent and free passage of fish from downstream of the waterworks to the upstream.

Claims (2)

1. The input tip of the fish passage, including the lower part of the fish passage, located in the lower pool, made in the form of a stepped or inclined tray or channel with a longitudinal slope towards the lower pool, containing vertical transverse dividing walls and an input dividing wall forming the entrance chamber of the fish passage, with inlet holes of rectangular, square or round shapes placed in them over the entire width of the fish passage chambers, while jet-forming nozzles are located at an angle and whether parallel to the axis of the holes equipped with barrier visors in such a way that the nozzles are located inside the outlet portion of the inlet hole formed by the visors and are parallel to the plane of the shielding wall of the adjacent barrier visor, and the nozzle exit holes are located directly in the inlet holes between the planes of the lateral surfaces of the transverse separation walls or in autonomous channels, characterized in that the input dividing wall of the input head of the fish passage with an inlet hole made in plan along an arc of a circle with the formation of a cylindrical surface, and an inlet hole is located along the entire length of the inlet dividing wall of the inlet head of the fish passage. 2. The input tip of the fish passage according to claim 1, characterized in that the inlet hole has a shape that is a rectangle in the projection onto a plane orthogonal to the vector lying at the intersection of the diagonals of the hole and orthogonal to the axis of the cylinder.

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