SU1404679A1 - Windmill-electric generating unit - Google Patents

Description

(21) 3999390 / 25-06

(22) 09/02/86

(46) 06.23.88. Bul No. 23

(75) A.V.Zheligovsky and V.P. Pivnev

(53) 621.548 (088.8)

(56) Sheftor Ya.I., Rozhdestvensky And, V. The inventor on wind turbines and wind turbines. - M.g. Selkhozgiz, 1957, p.108.

(54) wind turbine

(57) The invention relates to wind power and allows for an increase in total electrical energy production by facilitating the start of wind power and increasing the carrying capacity of the flywheel (M). Transmission, including shaft 2 with successively installed on it overrunning clutch 3, gear 4, M 5,

the variator 6 and the electric generator 7 are equipped with the variator 8 mounted on the shaft 2 and the clutches 9 and the IO clutch. The variator 8, installed between the gearbox and M, interacts with the latter, and the couplings 9 and 10 interact with the variators 6 and 8. M is rotatably mounted with respect to shaft 2 and provided with a hollow shaft I1 located coaxial to shaft 2. When the wind speed is lower than nominal the clutch 10 is disconnected, and the clutch 9, including, connects M with the electric generator 7. At the same time M rotates the rotor of the electric generator, and the coupling 3 interrupts the connection of the wind wheel 1 with the shaft 2, which eliminates the fan loss of the wind wheel. I zp f-ly, 1 ill.

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The invention relates to wind power engineering and relates to wind turbines with inertial flywheels that accumulate energy. The purpose of the invention is to increase the total power generation by facilitating the launch of the wind wheel and increasing the power consumption of the flywheel.

The drawing shows the schematic diagram of the wind turbine,

A wind-driven unit contains a wind-wheel 1, a transmission associated with it, including a shaft 2 with an overrunning clutch 3, a gearbox 4, a gearbox 4, a flywheel 5 and a variator 6 interacting with it, and the generator 7 located on the last side shaft 2 transmissions.

The transmission is equipped with a second variator 8 mounted on the shaft 2. between the gearbox 4 and the flywheel 5 and interacting with the last and two couplings 9 and 10, the clutch located on the shaft 2 and interacting with the variators 6 and 8, and the flywheel 5 is mounted rotatably relative to the shaft 2, the flywheel 5 is equipped with a hollow shaft 11, located

coaxial to shaft 2 of the transmission,

I

When the wind turbine operates at nominal wind speeds, rotation from the wind wheel 1 is transmitted to the generator 7 through the transmission shaft 2. If the wind speed becomes nominal, then clutch 10 is activated, transmitting rotation from shaft 2 through variator 8 to flywheel 5. When wind speed is lower than nominal, clutch 10 is disconnected, and clutch 9, including, connects flywheel 5 through variator 6 to electric generator 7 In this case, the flywheel 5 rotates the rotor of the electric generator 7, and the clutch 3 breaks the connection between the wind wheel 1 and the shaft 2, thus eliminating the fan losses of the wind wheel 1,

Claims (1)

Invention Formula 1, A wind turbine containing a wind wheel, a transmission associated with it, including a shaft with an overrunning clutch, a gearbox, a flywheel and a variator that interacts with it, and an electric generator on the side of the latter, whose rotor is connected to the transmission shaft, which differs By the fact that, in order to increase the total electricity generation by facilitating the launch of the windwheel and increasing the energy intensity of the flywheel, the transmission is equipped with a second variator mounted on the shaft between the gearbox flywheel and cooperating with the latter, and two engagement sleeves arranged on the shaft and cooperating with the variator, and a flywheel rotatably mounted about the shaft, 2, The wind power unit according to claim 1, characterized in that the flywheel is provided with a hollow shaft arranged: coaxially to the transmission shaft.