RU2310717C1 - Fish-pass - Google Patents

Abstract

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

SUBSTANCE: fish pass comprises waterway made as gutter with rectangular cross-section having outlet head connected to upper pool of hydrosystem and inlet one communicated with lower pool thereof. Fish pass also has independent fish passing channels extending along fish pass gutter length and including transversal partitions with bottom swimming-in orifices and transition areas communicating independent fish passing channels. Each fish passing channel is made as integral unit including one working chamber defined by transversal partitions with surface and bottom swimming-in orifices. Independent fish-passing channels are located at fish pass gutter side walls. Even-numbered independent fish passing channels adjoin right side wall of fish passing channel. Odd-numbered ones are adjacent to left side thereof. Transition areas are asymmetric to even-numbered and odd-numbered independent fish passing channels and create additional swimming-in orifices extending for the full flow depth between end parts of even-numbered and odd-numbered independent fish passing channels. Independent fish passing channels have widths equal to half of fish pass gutter width.

EFFECT: possibility to create hydraulic conditions, which facilitate fish movement along fish pass.

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Description

The invention relates to hydraulic engineering, and in particular to methods and structures intended for passing fish producers through retaining structures to spawning and feeding grounds.

Known fish passage [1], including a fish passage, made in the form of a tray with a rectangular cross-section, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, transverse partitions with swimming holes.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [2], including a fish passage, made in the form of a tray with a rectangular cross section, the output head of which is connected to the upper pool of the hydraulic system, and the input head to the lower pool, transverse partitions with inlet openings and a system for controlling water levels in the working chambers .

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [3], including a fish passage, made in the form of a tray with a rectangular cross-section, the output head of which is connected to the upper pool of the waterworks, and the input head - to the lower pool, transverse partitions with inlet openings and autonomous fish passage tracts.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [4], including a fish passage, made in the form of a tray with a rectangular cross-section, the output head of which is connected to the upper head of the waterworks, and the input head - to the lower head, transverse partitions with inlet openings and transition sections.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [5], including a fish passage, made in the form of a tray with a rectangular cross-section, the output head of which is connected to the upper pool of the hydraulic system, and the input head - to the lower pool, transverse partitions with inlet openings and autonomous fish passage tracts.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [6], including a fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head is connected to the lower pool, transverse partitions with surface and bottom swimming openings and autonomous fish passage tracts.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [7], including a fish passage, made in the form of a tray, the output head of which is connected to the upper pool of the hydraulic system, and the input head is connected to the lower pool, transverse partitions with surface and bottom swimming inlets and autonomous fish passage tracts.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

Known fish passage [8], including a fish passage, made in the form of a tray with a rectangular cross-section, the output head of which is connected to the upper pool of the hydraulic system, and the input head is connected to the lower pool, autonomous fish passageways located along the length of the fish passage channel and including transverse partitions with floating holes, transitional sections connecting autonomous fish passageways.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

The closest in technical essence and the achieved result is a fish passage [9], including a fish passage, made in the form of a tray with a rectangular cross-section, the output head of which is connected to the upper head of the waterworks, and the input head - to the lower head, autonomous fish passages located along the length of the fish passage tract tray and including transverse partitions with inlet openings, transition sections connecting autonomous fish passage tracts to each other.

The disadvantage of this fish passage is the low efficiency of promoting fish in the fish passage.

The aim of the invention is to create effective conditions for the promotion of fish in the fish passage tract.

The invention consists in the following.

The implementation of autonomous fish passage paths in the form of a monoblock, consisting of one working chamber, limited by transverse partitions with surface and bottom inflow openings, allows you to create a compact autonomous path, characterized by certain hydraulic conditions that are different from the hydraulic conditions of the main fish passage path.

The placement of autonomous fish passageways along both side walls of the fish passage channel tray, while even autonomous fish passage paths are adjacent to the right side wall of the fish passage channel tray, and odd paths are adjacent to its left side wall, which ensures equal conditions for fish to reach the upper pool.

The location of the transition sections asymmetrically even and odd autonomous fish passages allows you to provide equiprobable conditions for the rest of fish and their choice of the most suitable routes for moving upstream.

The formation of additional inlet openings made to the entire depth of the stream and in the intervals between the end parts of the even and odd autonomous fish passage paths makes it possible to provide conditions for the passage of fish regardless of fluctuations in water levels in the upper and lower pools.

Implementation of autonomous fish passage tracts with a width equal to half the width of the fish passage tract tray allows you to create the optimal planned layout of the fish passage.

The solution of this problem is achieved by creating a new design of the fish passage, which allows to increase the efficiency of fish movement along the fish passage path. Graphic material that explains the essence of the invention is presented in the following figures:

figure 1 - fish passage, plan;

figure 2 - section aa in figure 1;

figure 3 is a section bB in figure 1;

figure 4 is a fragment of the fish passage, isometry.

The fish passage includes a fish passage tract 1, made in the form of a tray with a rectangular cross section, the output head of which is connected to the upper pool of the hydraulic system, and the input head is connected to the lower pool, autonomous fish passage 2, located along the length of the fish channel path 1 and including transverse partitions 3 s swimming holes, transitional sections 4, interconnecting autonomous fish passageways 2.

Autonomous fish passages 2 are made in the form of a monoblock, consisting of a single working chamber bounded by transverse partitions 3 with surface 5 and bottom 6 inlet openings, and autonomous fish pass paths 2 are placed along both side walls of the fish passage path tray 1, while even autonomous fish pass paths 2 adjacent to the right side wall of the channel of the fish passage 1, and the odd ones to its left side wall, and the transition sections 4 are asymmetrically even and odd autonomous fish passage 2 vplyvnye form additional openings 7 made for the whole depth and flow in the spaces between end portions of odd and even autonomous rybohodnyh paths 2, wherein the autonomous rybohodnye paths 2 formed with a width equal to half the width of the tray 1 rybohodnogo tract.

Fish passage works as follows.

The operation service submits a working water flow rate, which creates favorable hydraulic conditions for attracting fish to the inlet head, against the background of the downstream flow. The fish, being guided by the "loop" of speeds attracting the fish, enters the fish passage 1, begins to move in the direction of the upper pool and, gradually overcoming the surface 5 and bottom 6 swimming holes or vertical slotted additional swimming holes 7, reaches the exit head of the fish passage 1, where goes to the upper pool.

During its advancement, the fish has the opportunity to choose routes and speed conditions formed by the swimming holes 5, 6 and 7.

The implementation of autonomous fish passageways 2 in the form of a monoblock, consisting of one working chamber, limited by transverse partitions 3 with surface 5 and bottom 6 inlet openings, allows you to create a compact independent fish passage path 2, characterized by certain hydraulic conditions that are different from the hydraulic conditions of the main fish passage path 1.

The placement of autonomous fish passageways 2 along both side walls of the fish passage channel tray 1, while even autonomous fish passageways 2 are adjacent to the right side wall of the fish passage channel 1, and odd ones to its left side wall, which ensures equal conditions for the fish to pass into the upper pool .

The location of the transition sections 4 asymmetrically even and odd autonomous fish passages 2 allows you to provide equiprobable conditions for the rest of the fish and their choice of the most suitable routes for moving upstream.

The formation of additional swimming holes 7, made to the entire depth of the stream and in the intervals between the end parts of the even and odd autonomous fish passageways 2, allows to provide conditions for the passage of fish regardless of fluctuations in water levels in the upper and lower pools.

The implementation of the autonomous fish passage paths 2 with a width equal to half the width of the tray of the fish passage path 1, allows you to create the optimal planned layout of the fish passage.

The proposed fish passage allows you to create equiprobable conditions for the promotion and rest of fish caught in its inner space.

Information sources

1. A.S. USSR (SU) No. 1541343. "Fish passage". IPC Е02В 8/08. Authors: Malevanchik B.S., Lentyaev A.L., Filippov G.G., Publ. Bull. No. 5, 02/07/1990.

2. A.S. USSR (SU) No. 1544878. "Fish passage". IPC Е02В 8/08. Authors: Lazyev A.L., Filippov G.G., Publ. Bull. No. 7, 02.23.1990.

3. Japan Patent (JP) No. 47-51172. "Fishway". IPC EB02 8/08. Publ. 12/22/1972.

4. A.S. USSR (SU) No. 1696642. "Fish passage". IPC Е02В 8/08. Authors: Malevanchik B.S., Lentyaev A.L., Filippov G.G., Publ. Bull. No. 45, 12/07/1991.

5. A.S. USSR (SU) No. 1680860. "Fish passage". IPC Е02В 8/08. Authors: Lazyev A.L., Filippov G.G., Publ. Bull. No. 36, 09/30/1991.

6. Japan Patent (JP) No. 2004-324317, “Wooden fishpass apparatus with fish nest of girder framework adjustable in fall and shape”, IPC E02B 8/08, A01K 61/00. Hoshi Toshiaki, 2004, November 18.

7. Japanese Patent (JP) No. 2004-316311, “Fishway device using wooden fish nest whose head drop and shape can be freely taken in common”, IPC E02B 8/08. Hoshi Toshiaki, 2004, November 11.

8. A.S. USSR (SU) No. 1557249. "Fish passage". IPC Е02В 8/08. Authors: Malevanchik B.C., Ivanov AV, Publ. Bull. No. 14, 04/15/1990.

9. A.S. USSR (SU) No. 1666632. "Fish passage". IPC Е02В 8/08. Authors: Malevanchik B.S., Ivanov A.V., Publ. Bull. No. 28, 07/30/1991.

Claims (1)

A fish passage, including a fish passage tract, made in the form of a tray with a rectangular cross section, the output head of which is connected to the upper pool of the hydraulic system, and the input head is connected to the lower pool, autonomous fish passage paths located along the length of the fish passage channel and including transverse partitions with swimming holes transitional sections connecting autonomous fish passage tracts, characterized in that each autonomous fish passage path is made in the form of a monoblock, consisting of one working chamber, faceted denoted by transverse partitions with surface and bottom swimming inlets, with autonomous fish passageways located along both side walls of the fish passage tray, with even autonomous fish passage paths adjacent to the right side wall of the fish passage channel, and odd ones to its left side wall, and transition sections are located asymmetrically even and odd autonomous fish passageways and form additional swimming holes made to the entire depth of the stream in between the end faces and even and odd parts of autonomous rybohodnyh paths, wherein the autonomous rybohodnye paths are made with a width equal to half the width of the tray rybohodnogo tract.

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