RU2397291C1 - Design of swim-in hole of inlet fish pass head (versions) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydraulic engineering construction, namely to structures intended for attraction and transfer of fish producers through retaining structures to areas of spawning and fattening. Design of swim-in hole of inlet fish pass head includes lower part of fish pass track with inlet separating wall, which creates inlet fish pass head, and swim-in holes arranged in it along whole length of inlet separating wall of inlet fish pass head. Along perimetre of swim-in hole there are jet-forming nozzles arranged at the angle or parallel to axis of hole equipped with barrier visor so that nozzles are located inside swim-in hole outlet part formed by visor and are arranged parallel to plane of screening wall of adjacent barrier visor. Inlet separating wall is arranged in plan along arc of circumference to form cylindrical surface, and swim-in hole has shape, which in projection to plane is orthogonal to vector that lies on crossing of hole diagonals and orthogonal to axis of rectangle cylinder. Swim-in hole is arranged in the shape, which in projection to plane, orthogonal to vector passing through point of swim-in hole diagonals crossing and perpendicular to these diagonals, and also perpendicular to axis of cylindrical surface of inlet separating wall of fish pass, represents a figure in the form of square or circle or ellipse.

EFFECT: provides for efficient attraction of various fishes to fish pass structure, and also independent and free entry of fishes into fish pass.

3 cl, 10 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 input tip of the fish passage, including the lower part of the fish passage, located in the downstream. The fish passage path is made in the form of a stepped or inclined tray or channel with a longitudinal slope towards the downstream. It contains vertical transverse dividing walls and an input dividing wall forming the entrance chamber of the fish passage, with floating holes located throughout the width of the fish passage chambers, while along the perimeter of the holes there are jet-forming nozzles at an angle or parallel to the axis of the holes, equipped with barriers in such a way that nozzles are located parallel to the plane of the shielding wall of the adjacent barrier visor. The input dividing wall of the inlet head of the fish passage with an inlet hole is made in plan in a circular arc with the formation of a cylindrical surface. The inlet opening of the inlet head is located along the entire length of the entrance dividing wall of the fish passage and has 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.

The main disadvantages of the design of the inlet head of the fish passage are the impossibility of creating several fish movement routes in the search area of the downstream of the waterworks, as well as the unevenness of the velocity field over the area of the inlet.

The aim of the invention is to create effective conditions for attracting fish to the fish passage from a larger width of the watercourse in the downstream of the hydroelectric complex and to ensure the effectiveness of the fish entering the inlet head of the fish passage.

The invention consists in the following.

According to claim 1 of the claims (1st embodiment of the design of the inlet). The implementation of the inlet hole in the input dividing wall of the input head of the fish passage in a form that is a projection onto a plane orthogonal to the vector passing through the intersection point of the diagonals of the inlet hole and perpendicular to these diagonals, as well as perpendicular to the axis of the cylindrical surface of the input dividing wall of the fish passage, figure in the form of a square, it will be possible to obtain several inlet openings in the inlet head of the fish passage. This makes it possible to attract fish with different swimming abilities into the fish passage from the greater width of the watercourse in the lower pool of the hydraulic system due to the expansion of the range and number of fish movement paths in the search zone of the lower water pipe of the hydraulic system. In addition, with its compactness, this geometric shape of the inlet allows you to get more hydraulic resistance to the main flow from the upstream compared to the prototype.

According to claim 2 of the claims (2nd embodiment of the design of the inlet). The implementation of the inlet hole in the input dividing wall of the inlet head of the fish passage in a form representing a projection onto a plane orthogonal to the vector passing through the intersection point of the diameters of the inlet hole and perpendicular to these diameters, as well as perpendicular to the axis of the cylindrical surface of the inlet separation wall of the fish passage, figure in the form of a circle will allow you to get the same effect as in the case of claim 1. However, in this case, the shape of the inlet makes it possible to provide a more uniform velocity field over the entire area of the inlet.

According to claim 3 of the claims (3rd embodiment of the design of the inlet). The implementation of the inlet hole in the input dividing wall of the input tip of the fish passage in a form representing a projection onto a plane orthogonal to the vector passing through the intersection point of the major curved axis and the minor axis of the inlet opening and perpendicular to the minor axis of this inlet opening, as well as perpendicular to the axis of the cylindrical the surface of the entrance dividing wall of the fish passage, the figure in the form of an ellipse will allow to obtain a more uniform velocity field over the entire area of the inlet hole than in prototype case. However, at the same time, as in the case of the prototype, it remains possible to make swimming holes of various lengths, up to the length of the input dividing wall of the input head of the fish passage.

The solution to this problem is achieved by creating a new design of the inlet of the inlet head of the fish passage and its variants. Graphic material that explains the essence of the invention is presented in the following figures:

figure 1 - General diagram of the fish passage with an input tip and the method of its placement in the alignment of the dam hydroelectric complex (option 1);

figure 2 is the same, according to option 2;

figure 3 is the same, according to option 3;

figure 4 - diagram of the fish passage with the input tip in a plan view with an extended range and the number of fish movement paths in the search zone of the lower pool of the waterworks (according to options 1-3);

figure 5 - the same, with several attracting streams of different widths (option 3);

6 is the same, with one attracting stream along the entire length of the inlet dividing wall of the inlet head of the fish passage (according to option 3);

Fig.7 is a diagram of the device of the inlet openings in the input dividing wall of the fish passage of the inlet head and in the transverse separation walls of the fish passage in the section;

Fig. 8 is a view of the swimming hole in the inlet dividing wall of the inlet head of the fish passage (according to embodiment 1);

Fig.9 is the same, according to option 2;

figure 10 is the same, according to option 3.

The fish passage (Fig.1-3) is placed in the alignment of the dam 1 of the waterworks and is performed in the form of an open stepped, inclined or inclined-step overflow channel of the fish passage tract 2 connecting the upper and lower heads of the waterworks. Inside the spillway of the fish passage tract 2, vertical transverse dividing walls 3 are installed (Figs. 1-6), dividing the total pressure of the water system into parts (1 ... 5 m) and forming the fish passage chambers. Swim holes 4 are made in the dividing walls 3. The inlet head of the fish passage consists of the lowest chamber of the fish passage and the inlet separation wall 5, which is made in plan in a circular arc and represents a cylindrical surface. In the input dividing wall 5 of the input head also perform the swimming holes 6, 7, 8 (Fig.1-6). All the inlet openings 4, 6, 7 and 8 of the fish passage are equipped with obstruction visors 9 (Fig. 7), formed by shielding obstruction walls installed along the entire perimeter of the inlet openings 4, 6, 7, 8 parallel to the axes of the jets. Inside the barrier visors around the perimeters of the inlet openings 4, 6, 7, 8 (Fig. 7) there are jet-forming nozzles 10 parallel or at an angle to the central axis of the inlet openings 4, 6, 7 or 8. The jet-forming nozzles 10 are fed from distributing manifolds 11, which connected via a pressure pipe to the pump. The inlet hole 6 in the input dividing wall 5 of the input tip of the fish passage (Fig. 8) is made in the form of a projection onto the plane 12, orthogonal to the vector 13 passing through the intersection point of the diagonals 14 of the inlet hole 6 and perpendicular to these diagonals 14, and perpendicular to the axis 15 of the cylindrical surface of the input dividing wall 5 of the fish passage, figure 16 in the form of a square.

In addition, as an option, the inlet opening 7 in the input dividing wall 5 of the input tip of the fish passage (Fig. 9) is made in the form of a projection onto the plane 12 orthogonal to the vector 13 passing through the intersection point of the diameters 17 of the inlet opening 7 and perpendicular to these diameters 17, as well as perpendicular to the axis 15 of the cylindrical surface of the input dividing wall 5 of the fish passage, figure 18 in the form of a circle.

In addition, as an option, the inlet opening 8 in the input dividing wall 5 of the input tip of the fish passage (Fig. 10) is made in the form of a projection onto the plane 12 orthogonal to the vector 13 passing through the intersection point of the large curved axis 19 and the minor axis 20 of the floating holes 8 and perpendicular to the minor axis 20 of this inlet hole 8, as well as perpendicular to the axis 15 of the cylindrical surface of the input dividing wall 5 of the fish passage, figure 21 in the form of an ellipse.

Fish passage works as follows.

The working fluid (water) is supplied to the jet-forming nozzles 10 from the distributing manifolds 11 connected by pressure pipelines to the pumps (Fig. 7). The jet-forming nozzles 10 are placed around the perimeters of the inlet openings 4, 6, 7 or 8. When water flows through these jet-forming nozzles 10, rows of parallel hydraulic jets are formed, which, interacting with each other, partially form zones in front of the inlet openings 4, 6, 7 or 8 equal pressures (back pressure diagrams). 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 5 of the input tip of the fish passage in plan along an arc of a circle with the formation of a cylindrical surface will increase the coverage area by the attracting flow in the downstream of the waterworks (Figs. 1-6). And the placement of the float holes 6, 7 or 8 along the entire length of the inlet dividing wall 5 of the inlet head of the fish passage will make it possible to obtain stable attracting flows in the downstream of the waterworks.

The designs of the inlet openings of the fish-tank inlet head according to the first and second options are most effective for waterworks with a diverse species composition of fish to be passed through the dam.

The designs of the inlet openings of the inlet head of the fish passage according to the third embodiment also make it possible to expand the range and the number of fish movement paths in the search zone of the lower pool of the waterworks. But in this option, unlike the first two options, it is possible to make swimming holes of various lengths, up to the length of the input dividing wall of the input head of the fish passage, while, however, slightly increasing the energy costs for the formation of zones of partially equal pressures.

The choice of a specific design option for the inlet openings of the inlet head of the fish passage will depend on many factors, the main of which are the following factors: species composition of fish to be passed through the fish passage; hydrological situation in the downstream of the waterworks, layout of the waterworks itself, etc.

The proposed design of the inlet of the inlet head of the fish passage and its options allows you to create a controlled backpressure in front of the inlet holes of the inlet wall of the inlet of the fish passage and uniform, adjustable and stable attracting fish streams, which maximizes the effective attraction of fish of various species composition to the fish passage structure, as well as independent and free entry of fish into the fish passage.

Claims (3)

1. The design of the inlet of the inlet head of the fish passage, including the lower part of the fish passage with the inlet dividing wall forming the inlet head of the fish passage, and located in it along the entire length of the inlet dividing wall of the inlet head of the fish passage, with jet-forming nozzles located along the perimeter of the inlet hole angle or parallel to the axis of the hole, equipped with a barrier visor so that the nozzles are inside the output part formed by the visor of the wash hole and are parallel to the plane of the shielding wall of the adjacent barrier visor, and the entrance dividing wall itself is made in plan along an arc of a circle to form a cylindrical surface, and the swim hole has a shape that is a 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, the rectangle, characterized in that the inlet hole is made in the form of a projection onto a plane, o orthogonal to the vector passing through the point of intersection of the diagonals of the inlet opening and perpendicular to these diagonals, as well as perpendicular to the axis of the cylindrical surface of the input dividing wall of the fish passage, a figure in the form of a square. 2. The design of the inlet opening of the inlet head of the fish passage, including the lower part of the fish passage with the inlet dividing wall forming the inlet head of the fish passage and located in it along the entire length of the inlet separation wall of the inlet head of the fish passage, with jet-forming nozzles located along the perimeter of the inlet opening angle or parallel to the axis of the hole, equipped with a barrier visor so that the nozzles are inside the output part formed by the visor of the wash hole and are parallel to the plane of the shielding wall of the adjacent barrier visor, and the entrance dividing wall itself is made in plan along an arc of a circle to form a cylindrical surface, and the swim hole has a shape that is a 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, the rectangle, characterized in that the inlet hole is made in the form of a projection onto a plane, o orthogonal to the vector passing through the point of intersection of the diameters of the inlet opening and perpendicular to these diameters, as well as perpendicular to the axis of the cylindrical surface of the input dividing wall of the fish passage, the figure in the form of a circle. 3. The design of the inlet opening of the inlet head of the fish passage, including the lower part of the fish passage with the inlet dividing wall forming the inlet head of the fish passage and located in it along the entire length of the inlet separation wall of the inlet head of the fish passage, with jet forming nozzles located along the perimeter of the inlet opening angle or parallel to the axis of the hole, equipped with a barrier visor so that the nozzles are inside the output part formed by the visor of the wash hole and are parallel to the plane of the shielding wall of the adjacent barrier visor, and the entrance dividing wall itself is made in plan along an arc of a circle to form a cylindrical surface, and the swim hole has a shape that is a 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, the rectangle, characterized in that the inlet hole is made in the form of a projection onto a plane, o orthogonal to the vector passing through the intersection point of the major curved axis and the minor axis of the inlet opening and perpendicular to the minor axis of this inlet opening, as well as the figure in the form of an ellipse perpendicular to the axis of the cylindrical surface of the input dividing wall of the fish passage.

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