RU2807715C1 - Entrance head of fishway and spawning channel - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: fish passage structures designed to allow fish breeders to pass through the retaining structures of river hydrosystems to spawning areas. The entrance head is made in the form of a solid reinforced concrete dock structure formed by longitudinal vertical abutments and a bottom sloping in the direction of the water flow. The head includes a flow control device made in the form of two autonomously functioning flaps attached by means of bearing butt hinge to the downstream ends of the longitudinal vertical abutments in the direction of the water flow. Each flap is made with the ability to rotate by means of a drive at an angle from 0° up to 90° relative to the central axis of the tray and is equipped with a wheeled swivel support.

EFFECT: regulating the hydrometric parameters of the water flow to attract migrating fish.

1 cl, 21 dwg

Description

The invention relates to hydraulic engineering construction, namely to fish passage structures designed to allow fish breeders to pass through the retaining structures of river hydraulic structures to spawning grounds.

The entrance head of a fish-way and spawning canal is known (Baev O.A., Shevchenko A.V. Design solution for the flume entrance head of fish-way and fish-way-spawning canals // Ways to increase the efficiency of irrigated agriculture. 2022. No. 2 (86). P. 84- 91), made in the form of a rectangular cross-section tray tapering in plan and deepening in the direction of the water flow. The tray ensures the interface of the fish passage and spawning channel with the river bed and the hydraulic connection emanating from the head of the water flow with the river flow, which creates conditions for attracting and entering the fish passage of the channel, moving in the process of spawning migrations along the river bed. The narrowing of the inlet head channel compensates for the increase in the living cross-sectional area caused by the increase in its depth in the direction of the downstream of the hydroelectric complex or the river bed, the water flow flowing through it and allows maintaining equality of the flow speeds in the tray and at the fish entrance to it with the speed of the water flow in the canal tract.

The disadvantage of this design solution for the entrance head is the lack of ability to regulate the speed of the current flowing from the fish passage and spawning channel and attracting fish, the water flow and the inability to change the conditions for attracting them to enter the channel tract depending on the developing hydrological and ichthyological situation in the river bed.

The closest in technical essence and achieved result is the entrance head of the fish passage and spawning channel (SU 1703781 A1), which includes a flow control device located in its lower part in the direction of the water flow, made in the form of a system of rotary valves, the functioning of which allows the formation of currents that ensure the attraction of fish migrating in the downstream zones of a hydroelectric complex or river bed to the entrance to the fish passage and spawning channel.

The disadvantages of this technical solution are: the complexity of the design of the flow control device; the presence in the design of a flow control device in the form of louvres, which are a physical obstacle to the movement of fish; the inability to regulate the speed of the water flow flowing out of the end section of the head when hydrological and ichthyological conditions in the river change; the location of the working elements of the flow control device outside the fish inlet section of the head of the fish passage and spawning channel, opening into the river bed, which complicates the conditions of its functioning and operation. The indicated design flaws of the entrance head of the fish passage and spawning channel reduce the efficiency of attracting and entering fish into its channel.

Objectives of the invention: to provide the ability to regulate the speed of the water flow flowing from the entrance head of the fish passage and spawning channel, which attracts fish, taking into account the current hydrological and ichthyological conditions in the river bed; exclusion of the use in the design of technical elements that prevent the movement and entry of fish into the entrance head of the fish passage and spawning channel; simplification of the design solution of the flow control device located within the entrance head of the fish passage and spawning channel.

The technical result to which the invention is aimed is a constructive solution for the entrance head of the fish passage and spawning channel, which ensures an increase in the efficiency of its functioning in attracting and entering fish due to the possibility of regulating the speeds of the river emanating from it and the water flow attracting fish, taking into account hydrological and ichthyological situation in the river, simplifying the design and eliminating structural elements in it that prevent the movement and entry of fish into the water area of the head.

The specified technical result is achieved by constructing the entrance head of the fish passage and spawning channel, made in the form of a solid reinforced concrete dock structure formed by longitudinal vertical abutments and a bottom sloping in the direction of the water flow, characterized by the fact that it includes a flow control device made in the form of two autonomously functioning valves , attached by means of semi-hinged hinges to the downstream ends of the longitudinal vertical abutments in the direction of the water flow, each flap is made with the ability to rotate by means of a drive at an angle from 0° to 90° relative to the central axis of the tray and is equipped with a wheeled rotary support.

The invention is illustrated by drawings: FIG. 1 - Plan of the entrance head of the fish passage and spawning channel; fig. 2 - Longitudinal section according to FIG. 1; fig. 3 - Cross section I-I according to Fig. 1.; fig. 4 - Cross section B-B according to Fig. 1; fig. 5 - Node A according to Fig. 1; fig. 6 - Node B according to Fig. 2; fig. 7 - Plan of the lower part of the entrance head of the fish passage and spawning channel; fig. 8 - View A from Fig. 7; fig. 9 - Node B according to Fig. 8; fig. 10 - Planned location of the control valves (position 0°); fig. 11 - Planned location of the control valves (position 45°); fig. 12 - Planned location of the control valves (position 90°); fig. 13 - Planned arrangement of control valves (positions 45° and 0°); fig. 14 - Planned arrangement of control valves (positions 90° and 0°); fig. 15 - Planned arrangement of control valves (positions 90° and 45°); fig. 16 - Longitudinal section A-A according to Fig. 10; fig. 17 - Longitudinal section A-A according to Fig. eleven; fig. 18 - Longitudinal section A-A according to Fig. 12; fig. 19 - Longitudinal section A-A according to Fig. 13; fig. 20 - Longitudinal section A-A according to Fig. 14; fig. 21 - Longitudinal section A-A according to Fig. 15.

The numbers in Fig. 1-21 indicated: 1 - fish passage; 2 - sloping bottom of the inlet head tray; 3 - longitudinal vertical supports of the inlet head tray; 4 - tray; 5 - drive; 6 - rotary mechanisms; 7 - end part of longitudinal vertical abutments; 8 - half-hinged hinges; 9 - carrier card of half-hinged hinges; 10 - rotary map of semi-hinged hinges; 11 - control flaps; 12 - rotating wheel supports; 13 - concrete platform; 14 - channel tracks; 15 - river bed; 16 - diagrams of water flow velocities.

Letters in fig. 1-21 indicated: L - length of the entrance head of the fish passage and spawning channel, m; B ₁ , B ₂ - width of the entrance head at the sites where it interfaces with fish passage 1 and river bed 15, respectively, m; h ₁ , h ₂ - depth of water flow at the junction of the entrance head with the fish passage 1 and the river bed 15, respectively, m; i _pr - longitudinal slope of the bottom of the entrance head of the fish passage and spawning channel; v ₁ , v ₂ - flow velocity at the junction of the entrance head of the fish passage and spawning channel with fish passage 1 and river bed 15, respectively, m/s; α is the angle of rotation of the control flaps 11 relative to the axis of the tray 4 of the inlet head, degrees; v ₁ , v ₂ - speed of water flow in the lower part and at the exit from tray 4 of the inlet head of the fish passage and spawning channel, respectively, m/s; v ₃ - flow speed in the river bed 15, m/s.

The entrance head of the fish passage and spawning channel (Fig. 1-21) in the form of a tray 4 of rectangular cross-section, equipped with movably fixed valves 11 that regulate the speed v ₂ of the water flow flowing from it, is designed as follows.

The entrance head of the fish passage and spawning channel is made in the form of a solid reinforced concrete dock structure formed by longitudinal vertical abutments 3 and a sloped (in the direction of the water flow) bottom 2, forming a tray 4, providing topographical and hydraulic coupling of the river bed 15 and the fish passage tract 1. In the downstream part of the tray 4 of the inlet head, there are two flaps 11 that regulate the speed v ₂ of the water flow, attached by means of half-hinged hinges 8 to the end part of the longitudinal abutments 7. In this case, the carrier card of the hinges 9 is attached to the end part of the longitudinal vertical abutments 7 with the possibility of their rotation at an angle , and the rotary map of loops 10 is fixed on the control flaps 11, equipped with wheeled rotary supports 12, moving along the internal space of the channel tracks 14, fixed in the concrete platform 13. The control flaps 11 can be rotated relative to the central axis of the tray 4 at an angle α from 0° up to 90° inclusive and are driven by the drive 5 and rotary mechanisms 6. By changing the position of the control valves 11 by angle α, the speed parameters of the water flow v ₂ flowing from the chute 4 into the river bed 15 are changed.

The entrance head of the fish passage and spawning channel in Fig. 1-21 works as follows.

The water flow from the fish passage tract 1 enters the tray 4 formed by the sloping bottom 2 and vertical longitudinal abutments 3 of the inlet head of the fish passage and spawning channel and, having overcome its outlet, flows into the river bed 15, forming in it a train of fish-attracting velocities. On the end part 7 of the longitudinal vertical abutments 3, there is provision for fastening by means of semi-hinged hinges 8 control flaps 11, which provide the ability to control the speed characteristics of the water flow flowing from the tray 4 into the river bed 15 and attracting fish to the entrance to the structure. The control valves 11 are driven by individual drives 5 and rotary mechanisms 6. The position of the control valves 11 (their angle of rotation α) is determined from the condition of the formation at the entrance point of the head of the water flow velocity v ₂ that attracts fish from the river, ensuring their attraction and entry of fish into the tract of the fish passage and spawning channel. To partially compensate for the pressure exerted by the weight of the control valves 11 with rotary cards 10 on the supporting cards 9 of the semi-hinged hinges 8 and to remove part of the load from the drives 5 and rotary mechanisms 6, it is planned to equip the control valves 11 with wheeled rotary supports 12, moving along channel tracks 14, fixed in concrete platform 13.

The functioning of the entrance head of the fish passage and spawning channel is carried out under various hydrological and ichthyological conditions formed in the river bed 15.

At minimum levels and minimum flow rates of the water flow v ₃ in the river bed 15, the control valves 11 are installed parallel to the longitudinal vertical abutments 3 of the entrance head of the fish passage and spawning channel, which corresponds to their initial position or angle of rotation α=0° and the formation optimal for attracting fish from the river bed 15 speeds of water flow v ₂ at the exit from tray 4 (Fig. 10, Fig. 16). At an average (relative to the minimum and maximum values) position of the levels and flow rates v ₃ of the water flow in the river bed 15, the control valves 11 move closer to the central axis of the tray 4 at an angle (Fig. 11, Fig. 17), which ensures an increase in the speed v ₂ of the outflowing flow and its separation in the general flow of the river. When water level marks and flow velocities v ₃ in the river bed 15 increase from average to maximum values, the control valves 11 are rotated by an angle α, the values of which are in the range from 45° (initial position) to 90° (extreme position) ( Fig. 12, Fig. 18), which makes it possible to provide optimal speed conditions for the formation of a train of fish-attracting currents in the river flow and attracting fish into the tray 4 of the head of the fish passage and spawning channel. The choice of the value of the angle α in a specific period is determined from the conditions for the formation at the approach site to the entrance to the fish passage and spawning channel and the maintenance of optimal speeds v ₂ for attracting and entering 15 fish migrating to spawn along the river bed into tray 4.

The period of intensive spawning migrations of various fish species along the river channel 15 is characterized by various hydrological and ichthyological conditions occurring in it. This circumstance makes it necessary to regulate the speeds v ₂ of the water flow flowing from tray 4 of the entrance head of the fish passage and spawning channel into the river bed 15, taking into account the swimming ability of fish and the formation of a favorable hydrological regime to attract them to the entrance to tray 4. Values of attracting speeds for various species fish migrating to spawn along a river channel 15 can vary over a wide range of values. In connection with the above, the regulation of the speed parameters of the flow attracting fish is carried out in a wide range of changes in their values, which can be done by turning one or both control flaps 11 of the tray 4 to a certain angle α.

Upon completion of the intensive spawning run of fish of a certain species, the attraction of which from the river bed 15 to the tray 4 was carried out by a water flow with speeds v ₂ displayed on the speed diagrams 16 in Fig. 10, fig. 16 and the appearance in the water area of the river channel 15 of fish stocks, characterized by higher values of the speed of their attraction, one of the control valves 11 (in particular, the right one - in the direction of flow in the tray 4) can move to an intermediate position at an angle (Fig. 13; Fig. 19) in order to increase the speed v _{2 of} the water flow flowing from the tray 4 of the head of the fish passage and spawning channel. If there is a need to attract fish with higher swimming speeds, for example, sturgeon, the angle of rotation α of the right-hand control valve 11 can vary in the range of values - (Fig. 14, Fig. 20), and if it is necessary to increase the speed even more (in particular, when increasing the speed v ₃ in the river bed 15), the left-side control valve 11 can be activated and rotated at an angle (Fig. 15, Fig. 21).

The regulating valves 11 of the entrance head of the fish passage and spawning channel can operate in stationary and non-stationary modes.

The stationary mode is characterized by a fixed position of the control valves 11 relative to the central axis of the chute 4 and maintaining a constant speed v ₂ of the water flow flowing into the river bed 15. The specified operating mode of the control valves 11 is used during the intensive spawning run of a certain species of fish and the need to attract them to the entrance site tray 4 at constant levels and flow rates v ₃ formed in the river bed 15.

The non-stationary mode of operation of the control valves 11 is characterized by a continuous change in their position relative to the central axis of the chute 4 with a given angular velocity of their reciprocating rotational movement, which allows for the attraction of various species of fish from the river bed 15 in the event of coincidence of the time periods of spawning movement of their spawning stocks along the river channel 15. Under the specified operating mode of the control valves 11, the water flow flowing out of the tray 4 of the outlet head of the fish passage and spawning channel changes its speed characteristics over time according to a cyclic law, which makes it possible to attract to the tray 4 various species of fish migrating to spawn along the river channel 15.

The use of the entrance head of the fish passage and spawning channel, equipped with control flaps 11, attached on half-hinged hinges 8 to the end part 7 of the longitudinal vertical abutments 3, provides the ability to regulate the hydrometric parameters of the water flow flowing from its lower part, which ensures its effective operation in attracting migrating fish along the river bed 15, under different hydrological and ichthyological conditions developing in it.

Claims (1)

The entrance head of the fish passage and spawning channel, made in the form of a solid reinforced concrete dock structure formed by longitudinal vertical abutments and a bottom sloping in the direction of the water flow, characterized by the fact that it includes a flow control device made in the form of two autonomously functioning valves attached by means of semi-hinged hinges to the downstream ones in the direction of the water flow to the ends of the longitudinal vertical abutments, each flap is designed to be rotated by means of a drive at an angle from 0° to 90° relative to the central axis of the tray and is equipped with a wheeled rotary support.