RU2021123518A - HYDRAULIC SYSTEM OF STEPLESS SPEED CONTROL WITH HYDRAULIC AND PNEUMATIC SPEED CONTROL AND METHOD FOR ITS USE - Google Patents

Claims (11)

1. The stepless speed control system has a turbine output shaft and an electric generator input shaft and contains: - a hydraulic system having a first hydraulic chamber connected to the turbine output shaft and a second hydraulic chamber connected to the electric generator input shaft, the first and second hydraulic chambers are hydraulically connected to each other, the first and second hydraulic chambers are designed to adjust the speed of the input shaft power generator at the macro level; - a pneumatic system having a first pneumatic chamber connected to the turbine output shaft for generating compressed air and storing it in at least one storage tank, a second pneumatic chamber connected to the electric generator output shaft and at least one storage tank for one or more of macro level speed control, generator output braking and generator input shaft direct drive, and - a controller for controlling the output of the power generator connected to the input shaft of the power generator, comparing the output to the load/line of the power distribution network, and adjusting the speed of the shaft of the power generator based on load/line measurements of the power distribution network using one or more of a hydraulic system and a pneumatic system for power control supplied to the power distribution network. 2. The system of claim 1, further comprising a series of hydraulically driven impellers, wherein at least one impeller is associated with a first hydraulic chamber and a plurality of impellers are associated with a second hydraulic chamber, each impeller having an inlet and outlet valve, and the operation of the inlet and outlet valves is controlled by the controller. 3. The system according to claim 2, in which the impellers in the second hydraulic chamber are of different sizes. 4. The system of claim. 3, in which the size of the impellers in the second hydraulic chamber varies in size from the smallest to the largest in the direction of the generator to increase or decrease the speed of the input shaft of the generator. 5. The system according to claim 1, further comprising a reservoir in communication with the first and second hydraulic chambers. 6. The system of claim. 1, in which the pneumatic system includes at least one impeller associated with the first pneumatic chamber, and at least one impeller associated with the second pneumatic chamber. 7. The method for controlling the output of the engine, including providing the hydraulic system of stepless speed control according to claim 1 between the engine and the electric generator, and controlling the speed of the input shaft of the electric generator using the controller, the hydraulic system and the pneumatic system. 8. The method of claim 1 wherein the engine is a wind turbine.