SU1705483A1 - Fish protecting device of water-intake structure - Google Patents

Abstract

The invention relates to hydraulic engineering and can be used to protect fish from entering water intake structures. The purpose of the invention is to increase work efficiency. As the filter drum 1 becomes clogged by the signal from the sensors, gz hl L / / 11 /, /// /// /// /// /// /// /// // у / х on Fig5 The pump is turned on and through the pressure pipe 15 water enters the mixing chamber 16. Located on the hollow shaft 6. In the mixing chamber 16 connected by pipeline 17 with the atmosphere, water is saturated with air due to ejection. Then, along the hollow shaft 6. on which the drum 1 is rotatably supported, supported on the bearing 5, mounted on the shaft 6, the water enters the dispensing chamber 10 and the nozzles 12. The nozzles 12 are arranged in such a way as to ensure due to reactive forces of these, air-jet jets torque to rotate the drum 1. In addition, the air-water jets throw 1 garbage and young fish from the drum. providing clean water to the intake channel 18. 1 hp f-ly. 5 il. 17 / /% (L S vi O ate 4 00 CJ //////

Description

The invention relates to hydraulic engineering and can be used to protect fish from entering water intake structures.

The aim of the invention is to increase efficiency.

FIG. 1 shows a fish protection device of a water intake structure, isometric; figure 2 - the drum section, and the supply system flow to the nozzles; FIG. 3 shows the construction of the mixing chamber; Fig. 4 is a view A in Fig. 2 (with a drum fastening system); figure 5 is a fish protection device installed in the input part of the intake channel, a longitudinal section.

The fish intake structure of the water intake structure includes a filter drum 1, the end surfaces of which are perforated, and the side surface 2 is made of a grid. The drum 1 is filled with balls 3 with a bulk density greater than the volume mass of water, and in the upper part of the drum 1, located in the garbage disposal tray 4, there is space free from the balls 3. The drum 1 is supported by a bearing 5 on a horizontal shaft 6, which is hollow. The shaft 6 is fixed on the side of the water intake through the stop 7 and the ribs 8 stiffness. On the water side, the drum 1 is fixed by a stop 9 located inside the dispensing chamber 10, which is collapsible. The dispensing chamber 10 is connected to pipes 11 having nozzles 12 directed tangentially away from the plane 1 of the drum (at an acute angle -). This embodiment of the nozzles 12 allows the garbage discharge to be created away from the drum. The pipes 11 are in turn fixed to the drum surface 1 with locks 13. To ensure reduction of friction during the rotation of the drum and implementation of dynamic lubrication of the bearing 5, the shaft end is made with holes 14. The flow of water for rotating the drum is supplied through the pressure pipe 15 from the pump (not shown) and further along the shaft b to the dispensing chamber 10 and to the nozzles 12.

To increase the intensity of the washing of the balls 3 from the bonding agents by supplying a water-air flow to the nozzles 12, the shaft b is provided with a mixing chamber 16 connected by a pipeline 7 to the atmosphere. A shut-off device (not shown) is provided at the top of the conduit 17 to stop the air supply to the mixing chamber 16. Fish protection device is installed in the inlet section of the intake channel 18.

Fish protection device operates as follows.

When water is drawn to the consumer, the drum 1 is in a stationary state.

As it becomes clogged, using information from the water level sensors (not shown) and the water flow and water intake, a pump (not shown) is turned on to work, the water flows through the pressure pipe 15

0 into the mixing chamber 16, where, due to the created vacuum, air is ejected from the pipeline 17, which has a shut-off device (not shown) and is connected to the atmosphere. Shut-off

5, the device is in the Open state by an amount that provides a predetermined degree of water saturation with air. From the mixing chamber 16, the water-air mixture enters the hollow shaft b and then to distribution chamber 10, from where it is transported via pipelines 14 fixed with clamps 13 on the end surface to nozzles 12. Due to orientation of nozzles 12 at an acute angle to the end surface of the drum 1

5 hydraulic water-air jets emerging from nozzles 12, in addition to the torque generated by reactive thrust, create a flow of water directed from the end surface to

0 side of the reservoir, and provide efficient disposal conditions. At the same time, part of the water enters the holes 14, providing dynamic lubrication when the bearing 5 bar5 of the ban 1 is rotated, fixed by stops 9 and 7. The stop 7 is mounted on the stiffening ribs 8 to ensure the stability of the drum 1 relative to the water inlet.

0 When the drum 1 rotates, due to the reactive air-jet jet streams emanating from nozzles 12, the water near the drum is saturated with microscopic air bubbles, which penetrate through the perforated end surface into the drum 1, where they fall on the outer surface of the balls 3. By rotating the drum 1, the balls 3 are intensely

0 is mixed, colliding with each other, while the clogging is torn off from their surface and, drawn by microbubbles, is carried upwards and through the lattice side surface 2 enters the garbage disposal side tray 4, since the upper part of the drum 1 is inserted into the interior of the tray 4. debris and sediment from tray 4 contributes to the creation of a natural outflow of fluid beyond the limits of water intake or forced flow created by the system of ejector nozzles, water (not shown).

In addition, water or water-air jets from nozzles 12 create washing speeds relative to the side surface 1 of the drum, facing the reservoir, due to which the filtering surface is washed from adhered debris and algae. The process of cleaning the balls 3 ends automatically after reaching the minimum differential on the drum 1 due to information from the water level sensors.

Claims (2)

Claims 1. A fish intake protection device comprising a filter drum located in the inlet section of the water intake channel, partially filled with balls to form a free space, and the drum mounted on a horizontal shaft rotatably by means of a drive characterized in that. that, in order to increase efficiency, the device is equipped with a pump and a garbage disposal tray installed perpendicular to the water intake channel, while the drum faces the water body and the water intake channel, the upper part of the drum with a ball-free space is inserted into the garbage disposal tray, and a Segner wheel, the nozzles attached to the end surface of the drum on the water side and oriented at an acute angle to it, and the shaft is hollow and connects the nozzle to the pump. 2. Device pop. 1, characterized in that the hollow shaft is provided with a mixing chamber in communication with the atmosphere. FIG .. with so s about h teach s h s h h h h 5Sx  "I F33  W I Type A / 777777 Vus.4