SU831702A1 - Device for providing artificial flows adjacent to water surface - Google Patents

Description

(54) APPROACH FOR CREATING ARTIFICIAL FLOWS NEAR A VDA SURFACE

an electric drive consisting of an electric motor 14, a driving pulley 15, a driven pulley 16, a belt 17, a hydraulic accumulator 18 with a float 19, springs 20, a sector closure 21 with a belt 22 and a drain 23, which forms the nozzle 24 with an annular nozzle 25.

The accelerator works as follows.

During the operation of the propulsion complex, water passes through the grid 4 into the spiral tunnel 3, and then into the mixing chamber 5. When the inlet 6 of the stator 7 cut-off coincides with the inlet 10 of the rotor 9 and the outlet 12 of the rotor 9 coincides with the inlet of the nozzle 24, the liquid flows out of the mixing chamber 5 through the holes 6, 10 and 12 in a straight line of the rotor 9 freely flows into the jet-forming nozzle 24 and, having formed in CTpyib flows out into the pond. By means of the actuator 14, 15, 16 and 17, the rotor 9 of the shutter is driven into rotation. When the rotor rotates 1/4 of a turn with the inlet 6 of the stator 7, the inlet 11 of the rotor 9 of the shutter coincides, and the outlet holes 13 of the rotor 9 coincide with the holes of the hydraulic accumulator 18. Water does not flow through the nozzles 24 Two curvilinear outlets located inside 9, water enters the hydroaccumulator 18. The tightness of the inner part of the rotor cutter is carried out by the pads 8. When the hydroaccumulator is filled with water, the float 19 rises, and the springs 20 securing it to the case are compressed. When rotated to the next quarter of a turn, the rotor 9 takes a position and water enters the nozzles 24. The rotor rotates through the endless belt 22 and is transmitted to the sector valve 21 of the hydroaccumulator. The sectoral shutter opens, and water through the drain 23 enters the annular nozzles 25, and from there into the reservoir, thereby adding to the fluid mass of the pulsed jet.

The application of the invention increases the mass of a pulsed jet fluid by adding masses when they flow out of the hydroaccumulator, increases the energy intensity of the pulsating flow, thereby increasing

the transport capacity of the stream, its length and the range of advancement of timber, and the continuity of the movement of the fluid in the propulsion complex contributes to the full use of its power and productivity.

Claims (1)

Invention Formula A device for creating artificial flows near the water surface, containing an electric motor, on the shaft of which an impeller is mounted, which is located in a spiral tunnel connected to the mixing chamber, adjacent to the inlet of the stream cutter, provided with a jet-forming nozzle, with a rotor located inside the shut-off valve, characterized in that, in order to increase the power of the stream, the shut-off valve it is equipped with a hydroaccumulator containing a housing, inside which a spring-loaded float is located, and in the bottom of the housing there are windows, one of which has a pie gate and a second window - an input for liquid coming from the displacement chamber. In this case, the root is fixed: an annular nozzle, covering a jet-forming nozzle, and in the rotor there are curved channels for the passage of fluid from displacement chambers. in the hydroaccumulator.