RU139149U1 - FISHING GUIDE - Google Patents

Abstract

1. The fish guide device, made in the form of a waterproof wall with a fish hole, inside the fish hole and along its perimeter there are jet-forming nozzles at an angle or parallel to the axis of the fish hole, and also parallel to the plane of the adjacent shielding wall of the barrier peak, with the edges playing the role of the shielding walls the outlet of the fish passage, the jet-forming nozzles themselves communicate with distributing collectors made inside the waterproof walls, characterized in that the waterproof wall is installed in parallel to each other guide beams, vertically attached to the pontoons. 2. The device according to claim 1, characterized in that the waterproof wall is fixed in the guide beams in a predetermined height position using a cable. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are square in shape. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are round. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are rectangular. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are made in several tiers.

Description

The utility model relates to hydrotechnical construction, namely, fish protection devices designed to create transit water currents with the aim of diverting fish and its young from water intakes and other sources of danger to safe places of fish habitat, including attracting fish producers and their wiring from the weekend the head of the fish passage structure to sections and tributaries of the reservoir with pronounced natural currents, as well as the redirection of young fish from spawning places to the fish passage Niyama with downstream migration.

It is known that fish moving upstream to spawn, passing into the upper pool of the hydroelectric complex, fall from the river into the lake. This, of course, negatively affects the effectiveness of their search for spawning grounds. Therefore, it is advisable to create water streams in reservoirs to attract and guide fish producers to sections and tributaries of the reservoir with pronounced natural currents. Having spawned, producers and its young begin to make downhill migrations. In reservoirs, there is a delay in the migration of juveniles in front of the dam, removal of migrants to irrigation systems and their mass release into other water intake facilities, as well as mass death of juvenile fish in turbines of hydroelectric power plants. In order to prevent fish from approaching the source of danger in conditions of independent or passive settlement of fish in the water area of the reservoir, it is reasonable to use fish outflows with moderate speeds for fish, which will protect migrants from getting into water intake facilities. On the other hand, fish drainage currents can also be used to redirect migrants from water intakes and other sources of danger to reservoir sites that are favorable for fish habitats or to special devices that ensure safe passage of migrating fish through the dam to the lower tail of the waterworks.

A number of devices are known that create fish outflows in order to prevent stingray and fish death in the hydroelectric power station intake. So, it is known fish-and-fish removal device of a fish protection structure [1], including an ejector installation with a central supply, consisting of an inlet part, a mixing chamber and a pressure conduit installed in the place of a reservoir with an increased concentration of juvenile fish, while the inlet part of the installation communicates with a reservoir and a mixing chamber , and the outlet of the pressure head conduit - with a fish outlet. The device is equipped with a water intake well, while the ejector installation is installed vertically and coaxially with the fish receiving part of the water body, made in the form of a cylindrical well, and the outlet head of the pressure conduit is oriented upward in the direction of the fish outlet and is equipped with a jet forming nozzle made at an acute angle to the pressure conduit, and the inlet part the ejector installation is made in the form of a duct installed coaxially with a pressure conduit and having two slotted fish receiving holes located horizontally but in diametrically opposite end parts of the box, which can rotate around a vertical axis by means of jet thrust created by nozzles connected to the pressure line of the ejector and made asymmetrically with slotted fish receiving holes, while the upper edge of the well is inclined towards the fish drain located at the level of the upper edge and made in the form of a ring-shaped tray coaxially to the well and the axis of the ejector installation. The disadvantage of this device is the design complexity, low mobility, a fairly high probability of injury to juvenile fish, as well as the inability to safely divert juvenile fish from a source of danger for considerable distances.

The closest in technical essence and the achieved result is a device for protecting the water intake from fish and garbage [2] and its analogue [3]. The devices are made in the form of waterproof walls that enclose the intake windows from the main watercourse. One or several through holes with jet-forming nozzle systems are made in the walls. The jet forming nozzles themselves communicate with distributing manifolds made inside a waterproof wall. The jet-forming nozzles of the through holes are located on the side of the main watercourse and directed towards the main watercourse. Moreover, the waterproof walls can be a two-sided surface [2] or a cylindrical surface, which in plan view has the shape of an ellipse arc [3]. Their main disadvantages are the lack of mobility, as well as the design for a particular source of danger.

The purpose of the utility model is to create a new model of a fish-guiding device with high efficiency and mobility, as well as providing an adjustable range and speed of the transit water flow of fish-diverting or fish-attracting destinations at a given depth, subject to all environmental protection requirements.

The essence of the utility model is as follows.

According to claim 1 of the formula of the utility model. The design of a waterproof wall mounted in parallel to each other guide beams vertically attached to the pontoons will allow for mobility and the necessary buoyancy of the fish-guiding device along the waters of rivers, lakes and reservoirs. The guide beams will provide a vertical location of the waterproof wall in a flooded position during operation of the fish guide device.

According to claim 2, the utility model formula. The implementation of a waterproof wall with the possibility of fixing in the guide beams in a predetermined height position using a cable will allow the waterproof wall to be deepened to the calculated depth and, accordingly, to form a transit water flow of a fish-releasing or fish-attracting nature in the desired water horizon.

According to claim 3, the utility model formula. The execution of the fish passage holes of the square-shaped waterproof wall will make it possible to obtain several transit water flows of a fish-releasing or fish-attracting character.

According to claim 4, the utility model formula. The implementation of the fish passages of the waterproof round wall will allow you to get the same effect as in the case of claim 3, however, in this case, the transit water flow of the fish-releasing or fish-attracting nature will have a more uniform velocity field over the entire area of the fish-pass hole.

According to claim 5, the utility model formula. The design of the rectangular fish-shaped openings of the waterproof wall will allow the formation of openings of any width. In this case, we obtain one or more transit water flows of fish-releasing or fish-attracting nature of any width, up to the width of the waterproof wall itself.

According to claim 6, the utility model formula. The implementation of the fish passage holes of the waterproof wall in several tiers will allow the formation of transit water flows of fish-diverting or fish-attracting nature of the given hydraulic characteristics in different horizons of the equipped water area.

The solution to this problem is achieved by creating a new model of a fish guide device. Graphic material that explains the essence of the proposed utility model is presented in the following figures:

figure 1 - diagram of the fish guide device in a straight view;

figure 2 is the same, a sectional view from the side;

figure 3 is a view directly on the waterproof wall, fish passage holes are made square in shape;

figure 4 - the same, fish passage holes are made round;

figure 5 - the same, fish passage holes are made in two tiers;

6 is a diagram of the operation of the fish guide device in a side view;

Fig.7 is a diagram of the joint operation of the fish guiding devices in plan view.

The fish-guiding device includes a waterproof wall 1 (Figs. 1, 2, 6) installed in parallel to each other guide beams 2, which are vertically attached to the pontoons 3. The beams themselves are fastened to each other by means of a bridge 4, supported by the pontoons 3. To give the rigidity of the design of the fish guide device use transverse and inclined rods 5. In order to prevent the wall 1 from escaping from the guide beams 2, the ledges 6 are made at the ends of the latter 6. One or more are arranged in the waterproof wall 1 (Fig. 1) ybopropusknyh openings 7 (3-5) with the nozzles 8 strueobrazuyuschih systems (2, 6). The jet forming nozzles 8 themselves are positioned at an angle (FIGS. 2, 6) or parallel to the axis of the fish passage 7, as well as parallel to the plane of the adjacent shielding wall 9 of the barrier visor (FIGS. 2, 6). The role of the shielding walls 9 of the barrier visor is played by the faces of the outlet of the fish passage 7 (FIGS. 1-6). The power of the jet-forming nozzles 8 is carried out by means of distributing collectors 10 made inside the waterproof wall 1 (Fig.2, 6).

In addition, the waterproof wall 1 is fixed in the guide beams 2 in a predetermined height position using a cable 11, which is wound on a drum 12 with a worm drive 13 (Fig.2, 6).

In addition, the fish holes 7 of the waterproof wall 1 can be made square in shape (figure 3).

In addition, the fish holes 7 of the waterproof wall 1 can be made round (figure 4).

In addition, the fish passage holes 7 of the waterproof wall 1 can be made rectangular (figure 1).

In addition, the fish passage 7 of the waterproof wall 1 can be made in several tiers (figure 5).

Fish-guiding devices 14 are placed in the water area of rivers, lakes or reservoirs on existing or planned tracks of fish going to spawn, or downstream, or near sources of danger to prevent the death of juveniles and adult fish (Fig. 7). The device itself works as follows. By means of pumps installed on the bridge of the fish guide device or on a separate pontoon or on the shore, water is supplied through distributing manifolds 10, made inside the waterproof wall 1, into the system of jet-forming nozzles 8 of the fish passage openings 7, which form hydraulic jets 15 (Fig. 6). Hydraulic jets 15, interacting with each other, form, depending on the number of fish passage holes 7, one or more total flows 16 (Fig.6). Due to the location of the jet-forming nozzles 8 inside and around the perimeter of the fish passage 7 at an angle or parallel to its axis, as well as the presence of the shielding walls 9 of the barrier visor in the outlet of the fish passage 7, stabilization of the total flow is achieved.

The total flows 16, in turn, form in front of the waterproof wall 1 and behind it a transit water stream 17, which, depending on the magnitude of the speed, can have fish-diverting or fish-attracting purposes. The transit water flow of 17 fish-releasing or attracting destinations allows 7 fish producers and its young to be carried out over a considerable distance through the fish-hole. The speed and range of the transit water flow 17 is governed by the flow rate of the hydraulic jets 15, depending on its purpose, taking into account the guaranteed viability of the fish and its juveniles.

For the formation of a transit water flow of fish-releasing destination 18 with the aim of diverting fish and its young from water intakes 19 and other sources of hazards (for example, a spillway dam of hydroelectric power station 20), fish guiding devices 14 are placed in a safe quantity near these engineering structures in the required quantity (Fig. 7 )

In the case of attracting and sending fish producers from the outlet head of the fish processing facility 21 to the spawning places 22, the fish guides 14 are placed along the projected fish route, thereby forming a transit water flow of the fish-attracting destination 23 (Fig. 7). In addition, it is advisable to use the fish-guiding devices 14 in the downstream of the waterworks to attract fish that spawn to the fish passage 21 (Fig. 7).

The proposed utility model will significantly simplify the task of forming effective transit water flows of a fish diversion or attracting destination. Therefore, this utility model will find wide application for protecting fish and its young in water intakes and other hazards, attracting fish producers to fish passage facilities and their further transfer from fish passage structures to sections and tributaries of the reservoir with pronounced natural currents, as well as redirection juvenile fish from spawning sites to fish passage facilities during downstream migrations.

Information sources

1. Pat. 2250298, IPC ⁷ E02B 8/08 A method for transporting juvenile fish to a fish breeder and a fish bait and fish bait device that implements it / A.A. Chistyakov, A.V. Novadarsky, V.N. Skin (RF). - No. 2003121539/03; Stated July 10, 2003; Publ. 04/20/2005, Bull. No. 11.- 13 p.

2. Pat. 2404323 RF, IPC ⁸ E02B 8/08. Device for protecting water intake from fish and garbage getting into it / O.G. Vvedensky (RF). - No. 2009124515/21; Announced on 06/26/2009; Publ. 11/20/2010, Bull. Number 32. - 19 p.

3. Pat. 2401357 RF, IPC ⁸ E02B 8/08. The head of the water intake / O.G. Vvedensky (RF). - No. 2009128357/21; Claimed on July 21, 2009; Publ. 10/10/2010, Bull. No. 28. - 30 s.

Claims (6)

1. The fish guide device, made in the form of a waterproof wall with a fish hole, inside the fish hole and along its perimeter there are jet-forming nozzles at an angle or parallel to the axis of the fish hole, and also parallel to the plane of the adjacent shielding wall of the barrier peak, with the edges playing the role of the shielding walls the outlet of the fish passage, the jet-forming nozzles themselves communicate with distributing collectors made inside the waterproof walls, characterized in that the waterproof wall is installed in parallel to each other guide beams, vertically attached to the pontoons. 2. The device according to claim 1, characterized in that the waterproof wall is fixed in the guide beams in a predetermined height position using a cable. 3. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are square in shape. 4. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are round. 5. The device according to claim 1, characterized in that the fish holes of the waterproof wall are rectangular. 6. The device according to claim 1, characterized in that the fish passage holes of the waterproof wall are made in several tiers.

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