RU2308568C1 - Fish-passing device - Google Patents

Abstract

FIELD: hydraulic structures, particularly permitting fish passage through support structures to fish hatchery and growth areas.

SUBSTANCE: fish-passing device comprises bottom fish-guiding baffles inclined to fish-passing canal and to longitudinal axis thereof in plane view. Baffle from upper pool side adjoins side wall thereof. Lower end parts of baffles are located in different waterway cross-sections. Guiding walls are connected to end parts of bottom fish-guiding baffles facing fish-passing canal inlet and define fish-guiding channels. Each downstream bottom fish-guiding baffle has height decreasing in waterway direction. Bottom recesses are created past downstream side of bottom fish-guiding baffles so that the recesses create independent channels with bottom marks located below that of lower baffles ends. Bottom fish-passing baffles are symmetric about longitudinal axis of fish-passing canal. End parts of guiding walls are shifted with respect to each other and are in different waterway cross-sections. Inner side walls thereof create additional independent channel having axis coinciding with longitudinal fish-passing canal axis.

EFFECT: improved hydraulic fish-attractive conditions.

3 cl, 14 dwg

Description

The invention relates to hydraulic engineering, in particular to fish passage facilities designed to allow fish producers to pass through retaining structures to spawning and feeding grounds.

Known fish-guiding device [1], including a visor installed at an angle to the entrance to the fish passage, a fish channel formed parallel to the visor from the downstream side, a device for regulating the hydraulic mode.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [2], including bottom fish guide rapids installed at an angle to the entrance to the fish passage, bypass galleries of an additional power supply connected to the upper pool and the inner cavity of the bottom fish guide rapids, outlet openings located along the length of the thresholds, and means for regulating hydraulic mode.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [3], including bottom fish guide ledges installed at an angle to the entrance to the fish passage, bypass galleries of an additional power supply connected to the upper pool and the inner cavity of the bottom fish guide ledges, outlet openings located along the length of the lateral edge of the ledges, and bottom fish channels equipped with flow forming devices.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [4], including bottom fish guide thresholds installed at an angle to the entrance to the fish passage, means for controlling fish, made in the form of underwater light sources placed discretely along the length of the side face of the thresholds, and bottom fish channels, parallel to the thresholds, from the downstream side.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [5], including bottom fish guide slots made at an angle to the entrance to the fish passage, means for controlling fish, made in the form of flow-forming devices placed discretely along the length of the slots, and bottom fish channels.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [6, 7], including bottom fish guide sills made at an angle to the entrance to the fish passage.

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

Known fish guide device [8], including bottom fish guide rapids made at an angle to the entrance to the fish passage and curved in plan.

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

Known fish guide device [9], including bottom fish guide rapids installed at an angle to the entrance to the fish passage, bypass galleries of an additional power supply connected to the upper pool and the internal cavity of the bottom fish guide rapids, outlet openings located along the length of the thresholds, and means for regulating hydraulic mode.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [10], including bottom fish guide rapids installed at an angle to the entrance to the fish passage, bypass galleries of an additional power supply connected to the upper pool and the internal cavity of the bottom fish guide rapids, outlet openings located along the length of the thresholds and in their end parts .

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [11], including bottom fish guide ledges installed at an angle to the entrance to the fish passage, and an inclined ramp that mates the bottom of the downstream with the bottom of the fish passage.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [12], including bottom fish guide rapids installed at an angle to the entrance to the fish passage, a means for regulating along the threshold current, placed on the visor thresholds.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [13], including bottom fish guide thresholds installed at an angle to the entrance to the fish passage, a means for regulating along the threshold current, located above the upper edge of the bottom thresholds.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

Known fish guide device [14], including bottom fish guide thresholds installed at an angle to the entrance to the fish passage, means for regulating along the threshold current, located inside the thresholds and having the possibility of vertical movement by means of a drive.

The disadvantage of this device is the design complexity and low efficiency of attracting fish.

The closest in technical essence and the achieved result is a fish guide device [15], including bottom fish guide thresholds set in plan at an angle to the entrance to the fish passage tract and its longitudinal axis, while the threshold from the upstream side adjoins its side wall, and the lower the end parts of the rapids are located in different transverse sections of the watercourse, the guiding walls connected to the end parts of the bottom fish guide rapids facing the entrance to the fish passage tract and forming the fish guide channels, each downstream downstream rybonapravlyayuschy bottom threshold adapted to different heights which decreases downstream watercourse bottom recesses formed for pressureless bottom face rybonapravlyayuschih thresholds defining autonomous channels, the bottom of which is adapted to the mark below the bottom end portion of thresholds.

The disadvantage of this device is the low efficiency of the influence of thresholds on attracting fish.

The aim of the invention is the creation of effective hydraulic conditions in the area of the location of the fish guide device.

The invention consists in the following.

According to claim 1 of the claims. The implementation of the bottom of the fish-directing thresholds symmetrically relative to the longitudinal axis of the fish passage tract allows you to create an effective, attracting fish, a "loop" of speeds against the background of the search zone.

The implementation of the end parts of the guide walls, offset from each other and located in different transverse sections of the watercourse, allows you to create an additional autonomous channel for the passage of fish in the bottom horizons and, at the same time, swimming holes for migrants from the bottom of the fish directing thresholds in the direction of the longitudinal axis of the fish passage tract. Moreover, the inner sides of the guide walls form an additional autonomous channel, the axis of which coincides with the longitudinal axis of the fish passage, which allows the fish to move freely in the direction of entry into the fish passage structure.

According to claim 2 of the claims. The option, when the fish-guiding device is equipped with a bottom fish passage channel connecting the initial part of the additional autonomous channel with the entrance to the fish passage, allows bottom fish species (for example, sturgeon) to efficiently move into the fish passage. With a decrease in the water level in the downstream, the bottom fish passage channel provides optimal conditions for the fish to move in the direction of the fish passage path. In this case, the input and output parts of the bottom fish passage channel are associated with the bottom of the apron and the bottom of the entrance to the fish passage through ramps, which improves the conditions of fish passage and flow hydraulics.

According to claim 3 of the claims. The option, when the output of the bottom fish passage channel is made in the inner space of the input part of the fish passage, ensures a guaranteed passage of fish into the inner space of the fish passage.

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

figure 1 - fish guide device, plan;

figure 2 - section 1-1 in figure 1;

figure 3 - section 2-2 in figure 1;

figure 4 - section 3-3 in figure 1;

5 is a longitudinal section of the inlet of the fish passage tract and the fish guide device;

6 is a variant of a fish guide device, plan;

Fig.7 is a section 4-4 in Fig.6;

Fig.8 is a section 5-5 in Fig.6;

Fig.9 is a section 6-6 in Fig.6;

figure 10 is an enlarged fragment of the inlet of the fish passage structure, plan;

11 is a section aa in figure 11;

Fig is a longitudinal section along the bottom of the fish guide rapids;

Fig is a longitudinal section of the inlet of the fish passage tract and the fish guide device, a variant with a bottom fish passage channel;

Fig - input part of the fish passage tract, isometry.

The fish guide device includes bottom fish guide rapids 1, set in plan at an angle to the entrance to the fish passage tract 2 and its longitudinal axis, while threshold 1 from the upstream side is adjacent to its side wall, and the lower end parts of the rapids 1 are located in different transverse sections of the watercourse , guide walls 3 connected to the end parts of the bottom fish guide rapids 1, facing the entrance to the fish passage 2 and forming the fish guide channels 4, each bottom downstream fish guide s threshold 1 is provided with different heights which decreases downstream watercourse bottom recess 5 formed for pressureless bottom face rybonapravlyayuschih thresholds 1 constituting the autonomous channels, the bottom of which is adapted to the mark below the bottom end portion of thresholds 1.

Bottom fish guide sills 1 are made symmetrically relative to the longitudinal axis of the fish passage path 2, and the end parts of the guide walls 3 are offset from each other and located in different transverse sections of the watercourse, while their inner side walls form an additional autonomous channel 6, the axis of which coincides with the longitudinal axis of the fish passage tract 2.

In addition, the fish-guiding device can be equipped with a bottom fish passage channel 7 connecting the initial part of the additional autonomous channel 6 with the entrance to the fish passage 2, while the input and output parts of the bottom fish passage channel 7 are associated with the bottom of the apron and the bottom of the entrance to the fish passage 2 via ramps 8.

In addition, the output of the bottom fish passage channel 7 can be made in the inner space of the inlet part of the fish passage tract 2. The fish guide device operates as follows. In the process of attracting fish from the downstream search zone, bottom fish species have the opportunity to move along the bottom fish guide rapids 1, since they are tactile guidelines for moving the fish to the entrance of the fish passage tract 2. Implementation of the bottom fish guide threshold system 1 extended to the downstream and with different lengths allows you to expand the zone of influence of the fish guide device and, accordingly, increase the efficiency of attracting fish from the search zone. With such a planned layout, the external borders of the fish-attracting "plume" increase (Fig. 1). The fish moves along the bottom faces of the bottom sills 1 and bottom recesses 5, then along the guide walls 3, which form fish guide channels 4 between them, from which the fish enters the additional autonomous channel 6 and then moves into the fish passage path 2 (Fig. 1). The different height of the bottom of the fish guide rapids 1 allows you to create different hydraulic conditions, characterized by varying degrees of intensity. In addition, with a decrease in the water level in the downstream, the intensity of the impact of bottom rapids 1 increases, which improves the conditions for attracting fish.

An option when the fish-guiding device is equipped with a bottom fish passage channel 7 connecting the initial part of the additional autonomous channel 6 with the entrance to the fish passage tract 2 (Figs. 6 and 10), allows bottom fish species (for example, sturgeon) to efficiently move into the fish passage path 2. When lowering the water level in the downstream bottom of the fish passage channel 7 provides optimal conditions for the movement of fish in the direction of the fish passage path 2.

In this case, the input and output parts of the bottom fish passage channel 7 are associated with the bottom of the apron and the bottom of the entrance to the fish passage tract 2 by means of ramps 8 (Figs. 10 and 11), which improves the conditions of fish passage and flow hydraulics.

The option when the output of the bottom fish passage channel 7 is made in the inner space of the inlet part of the fish passage 2, allows for guaranteed passage of fish into the inner space of the fish passage 2 (Figs. 13 and 14).

The proposed fish guide device can improve the hydraulic conditions for attracting bottom fish and can be used as part of the inlet heads of fish passages, fish passage and spawning canals, fish lifts and fish passage locks.

Information sources

1. A.S. USSR (SU) No. 1055814, "Fish passage structure", IPC Е02В 8/08. Malevanchik B.S., BI No. 43, 1983-11-23.

2. A.S. USSR (SU) No. 1650865, "Fish protection device", IPC EV 02/08. Shkura V.N., Chistyakov A.A., Tsvetkov O.V., Sinyakin A.V., BI No. 19, 1991-05-23.

3. A.S. USSR (SU) No. 1599469, "Device for passing fish through a spillway dam", IPC EV 02/08. Shkura V.N., Chistyakov A.A., Yatsino S.L., Cherkasov V.A., BI No. 38, 1990-10-15.

4. Patent of the Russian Federation (RU) No. 2262568, "Fish-guiding device", IPC EV 02/08. Chistyakov A.A., Shkura V.N., Mozol E.A., Efimova E.F., BI No. 29, 2005-10-20.

5. Patent of the Russian Federation (RU) No. 22545416, "Fish guiding device of a fish passage structure", IPC EV 02/08. Chistyakov A.A., Shkura V.N., Vanzha V.V., BI No. 3, 2005-01-27

6. Skin V.N., Sukalo G.M. On the use of bottom sills as fish-guiding devices // Tr. Hydroproject. - 1982. - No. 80. - p. 70-72.

7. Sukalo G.M. Bottom fish guide rapids used in combination with fish passage facilities: Abstract. dis. Cand. tech. sciences. L., 1985 .-- 22 p.

8. Shelestova N.A. Hydraulics of fish guide rapids arranged at approach sites to fish passage facilities: Abstract. dis. Cand. tech. sciences. L., 1987 .-- 23 p.

9. A.S. USSR (SU) No. 1703782, "Fish passage structure", IPC EV 02/08. Shkura V.N., Chistyakov A.A., Shelestova N.A., BI No. 1, 1992-01-07.

10. A.S. USSR (SU) No. 1625941, "Fish passage structure", IPC Е02В 8/08. Shkura V.N., Chistyakov A.A., Shelestova N.A., BI No. 5, 1991-02-07.

11. A.S. USSR (SU) No. 1463854, "Device for passing fish through a spillway dam", IPC EV 02/08. Shkura V.N., Chistyakov A.A., Yatsino S.L., BI No. 9, 1989-03-07.

12. Patent of the Russian Federation (RU) No. 22545417, "A method for controlling along a threshold current and a fish-guiding device implementing it", IPC EV 02/08. Chistyakov A.A., Shkura V.N., BI No. 3, 2005-01-27.

13. Patent of the Russian Federation (RU) No. 22545418, "A method for controlling along a threshold current and a fish-guiding device implementing it," IPC EV 02/08. Chistyakov A.A., Shkura V.N., BI No. 3, 2005-01-27.

14. Patent of the Russian Federation (RU) No. 22545426, "Fish-guiding device", IPC ЕВВ 8/08. Shkura V.N., Chistyakov A.A., BI No. 3, 2005-01-27.

15. Patent of the Russian Federation (RU) No. 2233939, "Fish-breeding and spawning channel", IPC EV 02/08. Shkura V.N., Anokhin A.M., Chistyakov A.An., Sukalo G.M., Chemikosova E.A., Chistyakov A.A., BI No. 22, 2004-08-10.

Claims (3)

1. A fish guide device, including bottom fish guide rapids, set in plan at an angle to the entrance to the fish passage tract and its longitudinal axis, while the threshold from the upstream side adjoins its side wall, and the lower end parts of the rapids are located in different transverse sections of the watercourse guiding walls connected to the end parts of the bottom fish guide rapids facing the entrance to the fish passage tract and forming fish guide channels, each bottom downstream fish guide the first threshold is made with different heights, decreasing downstream of the watercourse, bottom recesses made behind the pressureless face of the bottom fish guide rapids, forming autonomous channels, the bottom of which is made with a mark below the lower end of the thresholds, characterized in that the bottom fish guide rapids are made symmetrically with respect to the longitudinal axis of the fish passage tract, and the end parts of the guide walls are offset relative to each other and are located in different transverse sections of the watercourse, while their internal The lower side walls form an additional autonomous channel, the axis of which coincides with the longitudinal axis of the fish passage tract. 2. The device according to claim 1, characterized in that it is equipped with a bottom fish passage channel connecting the initial part of the additional autonomous channel with the entrance to the fish passage, while the input and output parts of the bottom fish passage channel are associated with the bottom of the apron and the bottom of the entrance to the fish passage tract through ramps. 3. The device according to claim 2, characterized in that the output of the bottom fish passage channel is made in the inner space of the entrance to the fish passage path.

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