SU1629380A1 - Flat water-operated gate of high-head hydroelectric stations - Google Patents

Abstract

The invention relates to hydraulic engineering and can be used as part of the mechanical equipment of a hydraulic structure. The purpose of the invention is to increase reliability and efficiency by improving the hydraulic characteristics. A flat water gate of a high-pressure HPS contains a span (PS) 1 installed in conduit 4. Pressure chamber 8 is located above PS 1 with a seal 9 mounted on a duct 27. The upper perforated and lateral jetting elements 11 and 11 are attached to conduit 4 13. The main and additional visors 7 and 14 are attached to PS 1. The pressure and non-pressure sections 2 and 3 of the conduit 4, the pressure chamber 8, the main and additional energy absorbers 21 and 25 can be communicated through pipelines 15, 16, 17, 22. The shutter is produced by opening the valve 19 and supplying pressure to the pressure chamber 8, lifting it by opening the valve 29, and when the shutter moves, water from the pressure section 2 is fed to energy absorbers 21 and 25. 1 sludge. SO with

Description

The invention relates to hydraulic engineering and can be used as part of the mechanical equipment of a hydraulic structure.

The purpose of the invention is to increase the reliability and economy by improving the hydraulic characteristics.

The drawing shows a shutter, a vertical section.

A flat water-closing valve of high-pressure hydroelectric power plants contains a span structure 1 located between pressure section 2 and pressureless 3 sections of water conduit 4. Seals 5 are installed on span structure 1, side discharge consoles 6, a visor 7 located on the pressure side, is located above the span structure 1 8 pressure with a seal 9. To the ceiling 10 of the conduit 4 is attached the upper flow element 11, to the walls 12 of the conduit 4 are attached the lateral flow elements 13. An additional visor 14 is attached to the speed under EMA shutter determined flow stream modes. To improve the hydraulics of the lower part of the span 1, the valve 30 at the main connecting pipe 17 is simultaneously opened, as a result of which water bypassing the span 1 from the pressure section 2 is supplied to the pressure-free section 3 and, after quenching of its energy in the damper 21 and 25, is supplied to the lower spans 1 to reduce cavitation and vibration. After lifting the span 1 to the required height, the valve 29 is closed and the span 15 of the structure 1 is fixed by one of the known methods. In this case, the valve 30 remains open, and clogging of the system is prevented by the lattice flow guide element 11.

To lower the shutter, the valve 19 is opened, after which the water from the pressure section 2 enters the pressure chamber 8, moving the span 1 down. Span structure 1 on the pressure side. The top 15 and bottom 16 transfer pipelines are located mainly 7 and an additional 14 visors with the possibility of communicating the pressure chamber 8 through the upper transfer pipe 15 with the pressure section 2 of the water conduit 4, and through the lower transfer pipe 16 - with the pressureless section 3 of the water conduit 4. The main connecting pipe 17 is laid through an additional visor 14 and is inserted by an inlet 18 into the upstream transfer line 15 below its gate valve 19, and by an outlet 20 into the main energy damper 21 installed in the lower part of the span 1 on the pressure side. An additional connecting pipe 22 is embedded with an input 23 into the main connecting pipe 17, and an output 24

- in an additional 25 energy absorber installed in the lower end face 26 of the span 1. The upper flow element 11 is made lattice. A rigid box 27 is rigidly attached around the perimeter to the upper end 28 of the span 1 and the visors 7 and 14. The seal 9 of the pressure chamber 8 is labyrinth and is located on the outer perimeter of the box 27. The bottom transfer pipe 16 is equipped with a valve 29, and the main connecting pipe 17

- valve 30.

The shutter operates as follows.

To raise the shutter, the valve 29 is opened, and water from the pressure chamber 8 with a metered flow flows into the pressureless section 3 of the water conduit 4, while the shutters 29 and 30 are barely closed when the shutter is lowered.

The lifting force depends on the size of the visor 7, and the lowering depends on the base area of the duct 27. The height of the duct 27 is determined from the efficiency of the labyrinth seal 9 and depends on the pressure and the size of the gaps between the duct 27 and the walls of the pressure chamber 8.

Claims (1)

Claim Flat water shutter of high-pressure hydropower plants. comprising a span located between the pressure and non-pressure sections of the water conduit with seals, side discharge consoles and a visor located on the pressure side, a pressure chamber with a seal located above the span, upper and lateral flow elements attached to the ceiling and walls of the water conduit, characterized in that, in order to increase reliability and economy due to improved hydraulic characteristics, it is equipped with an additional visor, top and J downstream overflow and new and additional connecting pipelines with valves, the main and additional perforated flow energy dampers and a rigid duct, with an additional visor riveted to the span structure on the pressure side, the overflow pipelines are located in the visors with the possibility of a pressure chamber communicating through the upper __ crossover piping pressure section 50 lump of water conduit, and through the downstream transfer pipeline - with a pressureless section, while the main connecting pipe is laid through an additional visor and is cut in by the entrance to the upstream overhead pipeline below its valve, and by the exit • into the main energy absorber installed in the lower part of the span from the pressureless side, the additional connecting pipeline being cut in by the entrance to the main connecting pipeline and by the exit into the additional damper energy installed in the lower end of the span, the upper stream5 guiding element is lattice, the box is rigidly attached. around the perimeter to the upper end and peaks of the span triplets, and seal the pressure chamber and a labyrinth formed raspo10 lozheno on the outer perimeter of the box. , Compiled by A, Kononov