SU1645599A1 - Wind-power station - Google Patents

Abstract

The invention allows to increase the reliability of work and increase the electricity generation of a wind power station located in the coastal zone and containing a rotor on the supporting structure 1 mounted on the float 2 mounted on the column 3 fixed on the bottom 4 of the reservoir 5. The rotor receiving the energy of the wind is made in the form of contacting cylindrical sprocket wheels 12 mounted on axles 11 behind fairing 10. which are rigidly connected to each other by platform 9 and contacting with gear 13 having a greater height and smaller meter than provide increased transmission ratio of the kinematic connection through the hollow shaft 16c toothing 17 and the gear 15c of the electric generator 6 working with great speed and capacity. Stability of the station when operating at the required height above the reservoir level is ensured by a toroid-shaped capacity 7 of the float having partitions 19 forming a ballast 20 and centering 21 cavities connected to the pneumatic system 18 for pumping or displacing the ballast water, while the lower part 8 of the column submerged in water has a larger diameter than the upper part 14. 2 h. item f-ly, 2 ill. / 7 Ј About сл listen o che

Description

The invention relates to wind power and relates to wind power stations located in the coastal zone of seas, oceans, large lakes and reservoirs.

The purpose of the invention is to increase the reliability of work and increase power generation.

FIG. 1 is a station, general view; in fig. 2 is a section A-A in FIG. one.

The wind power station contains a rotor located on the supporting structure 1 mounted on the float 2 mounted on the column 3 mounted on the bottom 4 of the reservoir 5, and an electric generator 6 placed on the column 3 i: kinematically connected with the rotor. The float 2 is made in the form of a toroid-shaped vessel 7 mounted concentrically on the lower part 8 of column 3 with the possibility of axial movement. The supporting structure 1 is made in the form of a platform 9 and located between it and capacity 7 on opposite sides of the column 3 of the fairing 10 and two parallel vertical axes 11. The rotor is made in the form of 11 contacting helical wheels 12 installed on axes 11 diameter. The kinematic coupling of the electric generator 6 with the rotor has a cylindrical gear 13 mounted rotatably co-axally on the upper part 14 of the column 3 and in contact with one of the wheels 12. The height of the gear 13 is larger and the diameter is smaller, respectively, of the wheel's height and diameter 12. I part 8 of the column 3 has a larger diameter than the top part 14, Elechtrogeneerztor 6 is equipped with an additional gear wheel 15, and gear 13 - fixed with a hollow shaft 16 on its end, in the upper part of which an internal gear 17 is made, contacting with an additional gear wheel 15. The station is equipped with a pneumatic system 18 placed in a tank 7, having partitions 19, forming a ballast 20 and a sickle-shaped centering cavity 21 located on the periphery of the tank 7 on the side of the fairing 10, connected to the pneumatic system 18.

When the station operates, depending on the level of the reservoir, the float 2 is raised or lowered with design i and wheels 12 by means of a pneumatic die 18 that displaces or forces ballast water into the cavity 20. Due to the eccentric position of the axes 11 with wheels 12 relative to the column 3, the float 2 with the structure 1 is turned in the wind, the reference point is the fairing 10 towards the latter. The air flow, partially deflected by the fairing 10, hits the teeth of the wheels 12, causing the wheels 12 to rotate on the axles 11. The contacting wheels 12 drive the gear 13 with the shaft 16, which transfers the rotation to the wheel 15 of the electric generator 6, generating electricity for the consumer.

0 Stability of the station in the wind flow is provided by injection or displacement of ballast water into or out of cavity 21. The large dimensions of the wheels 12, their teeth and gears 13 provide a large ratio of kinematic connection with the generator b, a large rotational speed and power of the latter, slight contact forces of the wheels 12 and their high reliability under flow conditions.

Claims (3)

1. A wind power station containing a rotor located on a supporting structure mounted on a float mounted on a column fixed on the bottom of a reservoir and an electric generator placed on a column and kinematically connected to the rotor, characterized in that, in order to increase reliability work 0 and an increase in power generation, the float is made in the form of a toroidal tank mounted concentrically on the bottom of the column with the possibility of axial movement, supporting structure 5 in the form of a platform and located between it and the tank on opposite sides of the fairing column and two parallel vertical axes, the rotor as mounted on axles of contacting pro- scopes (Zyh cylindrical wheels of equal height and diameter, and the kinematic connection of the electric generator with the rotor has a cylindrical gear, ennuyu rotatably coaxially on 5 of the upper part of the column and in contact with one of the wheels, and the gear height is greater, and the diameter is less, respectively, the height and diameter of the wheel, while the lower part of the column has a larger diameter than 0 top 2. Station according to claim 1, characterized in that the electric generator is equipped with an additional gear wheel, and the gear is fixed at its end hollow 5 with a palom, in the upper part of which there is an internal gear ring in contact with an additional gear wheel. 3. Station pop, 1, characterized in that it is equipped with a pneumatic system placed in a tank having Rods that form a ballast and sickle-shaped on the periphery of the tank on the side of the centering cavity, are located on the side of the pnee system. YU FIG. 2