RU2049198C1 - Fish protection device of water intake works - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: during operation of water intake works, cleaning of netted sheets 2 is effected through pressure branch pipe 13 with the help of washing water fed to washing pipe 3. One part of washing water passes through additional nozzles 9 and rotates washing pipe 3 due to jet thrust. Main part of washing water passes through holes 7 of washing pipe 3 in hydraulic jets and space of hollow 5 of half-pipe 4 to which air is sucked from atmosphere through vertical pipe 8. Water-air jets through nozzles 6 of half-pipe 4 are supplied to surface of netted sheet 2 which covers opening of water intake 1 to wash off trash and young fish. EFFECT: higher efficiency. 5 cl, 5 dwg

Description

 The invention relates to hydraulic engineering, and in particular to devices for washing the mesh web of fish protection structures.

 The invention is illustrated by drawings.

 In FIG. 1 shows the proposed device, a General view; figure 2 is the same, a top view; figure 3 is a cross section through a washing device; figure 4 is the same, a variant of the layout of the mesh fabric; figure 5 installation of the float in the event of fluctuations in the water level in the pond.

 The fish protection device of the water intake structure includes a water inlet with an opening 1 blocked by a mesh cloth 2, a perforated washing pipe 3 connected to the pump (not shown) and placed behind the mesh cloth 2 from the water intake side, an air supply device made in the form of a perforated half pipe 4, fixed on the wash pipe 3 from the side of the mesh web 2 with the formation of a cavity 5 connected with the atmosphere, in which nozzles 6 are placed, fixed in the holes of the perforated half pipe 4 coaxially with 7 Verstov wash tube 3, and an actuator for moving the wash tube 3, the perforation holes 7 which are turned towards the mesh sheet 2.

 The hole 1 of the water inlet has a circle shape and is located in a horizontal plane, and the air supply device has a vertical pipe 8 coaxially mounted relative to the opening 1 of the water inlet and rigidly connected in its lower part to the perforated half pipe 4, the washing pipe 3 is horizontal and the drive for its movement is made in the form of two additional nozzles 9, in communication with the wash pipe 3 and placed horizontally at the end sections of the wash pipe 3, with additional nozzles and 9 are perpendicular to the wash tube 3 and directed in opposite directions.

 The mesh web 2 can be made in the form of a disk located horizontally. The network web 2 can be made in the form of a hemisphere facing a concave surface towards the opening 1 of the water intake.

 The device can be equipped with braces 10 and a bearing made in the form of a float 11 fastened by braces 10 with the bottom of the reservoir 12 and worn on the upper end of the vertical pipe 8 of the device for supplying air. The float 11 can be fixed at a mark below the minimum water level of the reservoir 12. The discharge pipe 13 is mounted on the stiffeners 14. The washing pipe 3 in its lower part is located in the bearing 15 of the pressure pipe 13.

 Fish protection device of the intake works as follows.

 As the water intake structure is in operation, the mesh web 2, which covers the water inlet 1, gradually becomes clogged with debris and algae, as a result of which the technical parameters of the filter deteriorate. To clean the mesh cloth 2, the operation service includes a pump (not shown) in operation and the discharge pipe 13 discharges water to the discharge pipe 3. A part of this discharge leaves the additional nozzles 9 with hydraulic jets and, due to the generated thrust, makes the wash pipe rotate 3, mounted in the bearing 15 on the stiffeners 14. The main part of the water flow enters the openings 7 of the washing pipe 3, from where it passes the internal volume of the cavity 5 of the half-pipe 4. with hydraulic jets. At first, water is pumped out from cavity 5, and then air coming from the atmosphere through a vertical pipe 8. Air jets passing nozzles 6 of half pipe 4 then fall onto the inner surface of mesh fabric 2, washing away debris, algae and young fish from it, which then are transported by an air-bubble torch into the surface layers of the reservoir 12. A stable position of the pipe 8 is facilitated, on the one hand, by an axial hole made in the center of the net web 2, and on the other hand, a bearing made in the form of a float 11 is fixed this stretch marks 10 relative to the bottom of the reservoir 12. Depending on the change in water level in the reservoir 12, the position of the float 11 can be changed along the depth of the reservoir 12 (figure 5).

 The present invention allows, due to a significant simplification of the design of the drive of the washing device, to increase the reliability of the structure as a whole.

 In addition, it should be noted that the use of this washing device in the case of deep water inlets makes it possible to efficiently operate such water intake heads by efficiently cleaning the trash bin.

Claims (5)

 1. FISH PROTECTION DEVICE FOR A WATER INTAKE STRUCTURE, including a water inlet with an opening covered by a mesh cloth, a perforated washing pipe in communication with the pump and placed behind the mesh cloth on the water intake side, an air supply device made in the form of a perforated half pipe, fixed to the perforated half pipe, web with the formation of a cavity in communication with the atmosphere, in which nozzles are placed, fixed in the holes of the perforated half-pipe coaxially with the wash holes of the pipe, and a drive for moving the washing pipe, the perforation holes of which are turned towards the mesh web, characterized in that the water inlet opening has a circle shape and is located in a horizontal plane, and the air supply device has a vertical pipe coaxially mounted relative to the water inlet opening and rigidly connected in its lower part with a perforated semi-pipe, and the washing pipe is located horizontally, and the drive for moving it is made in the form of two additional nozzles s communicated with the wash pipe and placed horizontally on the end portions of the wash tube with additional nozzles positioned perpendicular washpipe and directed in opposite directions.  2. The device according to claim 1, characterized in that the mesh web is made in the form of a hemisphere facing a concave surface towards the opening of the water intake.  3. The device according to claim 1, characterized in that the mesh web is made in the form of a disk located horizontally.  4. The device according to claims 1 to 3, characterized in that it is equipped with braces and a bearing made in the form of a float fastened by braces with the bottom of a reservoir and worn on the upper end of the vertical pipe of the device for supplying air.  5. The device according to claim 4, characterized in that the float is fixed at a mark below the minimum water level.

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