RU2169858C1 - Planetary windmill electric generating plant - Google Patents

Abstract

FIELD: wind-power engineering. SUBSTANCE: proposed planetary windmill electric generating plant has drive shaft coupled with rotor and windwheel with planet pinions. According to invention, windwheel is made in form of planetary mechanism with device providing positive rotation of planet pinions. EFFECT: improved specific characteristics of plant and increased wind power utilization factor. 3 cl, 2 dwg

Description

 The invention relates to environmentally friendly energy devices, in particular to installations using wind energy.

 A device is known that converts wind energy into rotation of a drive shaft, including a base with a vertical axis, on which a frame with a drive shaft, on which a wind wheel is mounted, can be mounted in a horizontal plane (Polytechnical Dictionary, M., Soviet Encyclopedia, 1976, p. .74).

 The disadvantages of the known devices include the bulkiness and high material consumption of the structure, as well as the low utilization of wind energy.

 A wind power unit is known, including a base with an axis on which a frame with a rotary stator and a wind wheel is mounted in the form of a repeller fixed to the drive shaft (Polytechnical Dictionary, M., Soviet Encyclopedia, 1976, p. 74).

 The disadvantage of this design is the low utilization of wind energy and high material consumption per unit of generated energy.

 The closest technical solution to the invention is a wind power unit, including a drive shaft connected to the rotor, and a wind turbine with a central wind wheel and satellites (SU 1188365 MKI F 03 D 3/02, 10/30/1985).

 The disadvantages of the known devices include high complexity, bulkiness and material consumption of the structure, as well as low efficiency.

 The objective of the present invention is to increase the utilization of wind energy and improve the specific characteristics of the installation, such as material consumption and overall dimensions per unit of energy generated.

 The problem is solved in that the wind wheel of the wind power unit is made in the form of a planetary mechanism with a device for the forced rotation of the satellites, which have a cylindrical and / or conical shape, and the axis of rotation of the satellites is at an angle to the axis of rotation of the rotor of the wind wheel.

 These distinguishing features are significant.

 The implementation of the wind wheel in the form of a planetary mechanism with cylindrical and / or conical satellites rotating around its axis allows the aerodynamic Magnus effect to be used to rotate the wind wheel. Using the Magnus effect can significantly increase the utilization of wind energy.

 In FIG. 1 shows a schematic diagram of the unit.

 In FIG. 2 is a diagram of a planetary mechanism.

 The planetary wind energy unit consists of a support 1 with a vertical rotary axis 2, on which a frame 3 with a rotary stator 4 and an electric generator 5 is mounted. A wind wheel in the form of a planetary mechanism 7, the satellites 8 of which are in the form of a cylinder and / or cone, is mounted on the shaft 6 of the latter. Satellites 8 have devices for their forced rotation in the form of electric motors 9, the housings 10 of which are connected to the rotor 11 mounted on the shaft 6. In front of the satellites 8, a guide apparatus 12 is installed. .

 The unit operates as follows.

 The rotary stator 4 sets the wind wheel against the direction of the wind. They include electric motors 9, which rotate the satellites 8. Air flows passing through the guide apparatus 12 are deflected and flow around the rotating satellites 8. The lateral pressure on the satellites 8 created by the Magnus effect causes the wind wheel to rotate. Torque through the rotor 11 and the shaft 6 is transmitted to the generator 5, which generates electricity.

 Such a device makes the design of the unit compact, and the use of the Magnus effect increases the utilization of wind energy.

Claims (3)

 1. Planetary wind power unit, including a drive shaft connected to the rotor and a wind wheel with satellites, characterized in that the wind wheel is made in the form of a planetary mechanism with a device for the forced rotation of the satellites.  2. The planetary wind energy unit according to claim 1, characterized in that the satellites have a cylindrical and / or conical shape.  3. The planetary wind energy unit according to claim 1, characterized in that the axis of rotation of the satellites are located at an angle to the axis of rotation of the rotor.

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