RU2015106526A - UNIVERSAL HYDRO-WIND POWER PLANT (UHVSU) - Google Patents

Abstract

1. A universal hydro-wind power installation contains a base, a shaft housing, a shaft, blades that change their positions in relation to the flow of water and the direction of the wind, chain transmission, weather vane, springs, levers with rollers, cam. 2. The universal hydro-wind power installation according to claim 1, characterized in that the blades are mounted in the holes of the rotor perpendicular to the axis of rotation of the rotor rigidly sitting on the shaft, with the ability to rotate around its axis, change their position - rotate 90 ° and back due to levers with rigidly mounted on the axes of the blades and the cam, rigidly sitting on the shaft housing for the power steering and freely for the APU, but rigidly connected with the weather vane, the rollers rolling on the cam, falling on the protrusions and in the hollows of the cam, together with the lever, overcoming the efforts of the jine, they rotate the blades 90 °, and set perpendicularly to the water flow and wind during the working phase and creating maximum torque, and creating the minimum resistance along with the non-working phase, resulting in increased utilization of water and wind energy. 3. The universal hydro-wind power installation according to claim 1, characterized in that it is arranged to rotate the blades from two ends, for stability and ease of rotation, a cam rim with sections, for example, a U-shape, rigidly connected to the main cam is provided for this, spokes and synchronously with it and rigidly connected with a weather vane, an additional axis is rigidly fixed at the end of the blade and a carriage with rollers, a spring, a stop, which allows the axis to rotate 90 ° and back, sits on it, the lower flange of the cam rim is partially removed, and on Este transition, for example, not working on the working phase of the shelf

Claims (11)

1. Universal hydro-wind power installation contains a base, shaft housing, shaft, blades, changing their positions in relation to the flow of water and wind direction, chain transmission, weather vane, springs, levers with rollers, cam. 2. The universal hydro-wind power installation according to claim 1, characterized in that the blades are mounted in the holes of the rotor perpendicular to the axis of rotation of the rotor rigidly sitting on the shaft, with the ability to rotate around its axis, change their position - turn 90 ° and back due to levers with a roller, rigidly mounted on the axes of the blades and the cam, rigidly sitting on the shaft housing for the power steering and freely, but rigidly connected with the weather vane, the rollers, rolling on the cam, falling on the protrusions and in the hollows of the cam, together with the lever, overcoming efforts P dinner blade rotated by 90 °, and back setting perpendicular to the flow of water and wind at the operating phase and creating the maximum torque, and along with the operating phase not creating minimum resistance, resulting in increased coefficient of water energy and wind. 3. The universal hydro-wind power installation according to claim 1, characterized in that it is arranged to rotate the blades from two ends, for stability and ease of rotation, a cam rim with sections, for example, a U-shape, rigidly connected to the main the cam, knitting needles and synchronously with it and rigidly connected to the weather vane, an additional axis is rigidly fixed at the end of the blade and a carriage with rollers, a spring, a stop, which allows the axis to rotate 90 ° and back, sits on it, the lower flange of the cam rim is partially removed, and n At the transition, for example, not working on the working phase of the shelf is folded and reinforced with gusset, creating a cam, a roller with a lever raid on the cam is rotated axis with the blade 90 ° and back. 4. The universal hydro-wind power installation according to claim 1, characterized in that it is configured to operate on horizontal and vertical planes with the blades and cams located at both ends and the stator and anchor can rotate the blades rigidly sitting on their shaft on different sides, increasing energy efficiency of water and wind, and they can only rotate the anchor, rotating in one direction, and when the blades are offset, the rotation will be smooth. 5. The universal hydro-wind power installation according to claim 1, characterized in that it is arranged to place two or more gas control systems in water or two or more aircraft on a surface operating on a vertical plane and two or more gas control systems on a single rack one above the other and APUs operating on a horizontal plane, creating more power in one place. 6. The universal hydro-wind power installation according to claim 1, characterized in that it is configured to install under water, under ice, on a single platform, 2 or more installations alone, 2 or more main power plants or 2 or more APUs, paired units below the main power station at the top of the APU, the loading device is installed outside the installation, for example, the hydraulic control system in water, under water, under ice, the loading device is on the shore, and the movement is transmitted, for example, by a flexible shaft, both stationary and on moving means, special means that move at low speed for example n excavators when loading ore, digging trenches, agricultural machinery, on water means - on barges, on rafts, on platforms for the extraction of gas, oil, on ships, on ships for propeller drive, for generating electricity, pump drive, on aircraft , for example, on airships, on balloons, on buildings, structures and on houses where it is possible, by strength characteristics and by the design of roofs, at polar stations. 7. The universal hydro-wind power installation according to claim 1, characterized in that it is made with the possibility of collapsible execution, for which a swivel sleeve is provided, and portable, for tourists, geologists, and fishermen, since the installation creates large capacities with small dimensions. 8. The universal hydro-wind power installation according to claim 1, characterized in that the gas-turbine is designed to be used instead of turbines, because it allows you to more fully use the water column, namely, to locate the power take-off shaft closer to the water level, since in the transition zone and the backward stroke of the blade is minimal; instead of turbines, GCUs operating on horizontal and vertical planes can be used. 9. The universal hydro-wind power installation according to claim 1, characterized in that the gas-turbine is made with the possibility of use on small rivers with shallow depth and will be widely used. 10. Universal hydro-wind power installation according to claim 1, characterized in that it is made with the possibility of manufacturing in a toy version. 11. The universal hydro-wind power installation according to claim 1, characterized in that the APU is made with the possibility of orientation in the direction of the wind using a weather vane, rigidly connected by means of spokes to the cam on the shaft housing and the rim-cam, and sets the blades perpendicular to the working phase and along when not working.