RU2664890C2 - Wing windmill - Google Patents

Abstract

FIELD: wind power engineering.

SUBSTANCE: present invention relates to wind power. Wing windmill is made in the form of vertically mounted wing 1 located along the wind flow, that is fixed on the horizontal axis of the rotor, parallel to the direction of the wind, the wing axis is rigidly connected to counterweight 4, that prevents the wing from deflecting to the critical angles at which it can come into contact with the ground and obstacles on it, inside the wing there are servo-drives 3, that change the profile bend and the angle of attack of the wing, thus ensuring a change in the direction of action of the lifting force, also a wing with a rotor is installed on platform 2, that has a vertical axis of rotation, that allows the wing to navigate in the direction of the wind.

EFFECT: invention is aimed at reducing the complexity of the design and reducing the negative impact on the environment.

1 cl, 2 dwg

Description

The winged wind turbine relates to wind energy, in particular to wind power plants. Numerous wind farms currently known have significant drawbacks: the presence of blades and high technical complexity, a dangerous effect on the environment (high noise levels near installations, a threat to birds). This invention has no analogues.

The task to which the invention is directed is to reduce the complexity of the design and reduce the negative impact on the environment.

This problem is solved due to the fact that the claimed invention is made in the form of a vertically mounted wing - 1, located along the wind flow, which is mounted on the horizontal axis of the rotor parallel to the direction of the wind, the wing axis is rigidly connected to the counterweight - 4, which does not allow the wing to deviate on critical angles at which it can come into contact with the ground and obstacles on it, inside the wing are servos - 3, which change the profile and angle of attack of the wing, thus providing a change in direction effects of the lifting force F, also the wing with the rotor is mounted on the platform - 2, which has a vertical axis of rotation, which allows the wing to navigate in the direction of the wind. The device operates as follows: first, the wing is in the neutral position (a), when the wind turbine starts, servos - 3 bend the wing in one of the rotation directions (b), and when it flows around the wind

The wing wind turbine creates a lifting force F, which rotates the wing until it is balanced by the weight of the counterweight - 4, then the servos change the bend of the wing profile (c) so that the direction of the force F changes to the opposite, and the process repeats in the opposite direction.

The technical result provided by the given set of features is a high efficiency of the installation, a significant reduction in design complexity and negative environmental impact.

The invention is illustrated by drawings, which depict:

In FIG. 1 - Graphic description of the operation of a winged wind turbine;

In FIG. 2 - Diagram of a winged wind turbine with its constituent parts.

Claims (1)

The wing wind turbine is made in the form of a vertically mounted wing 1 located along the wind flow, which is fixed on the horizontal axis of the rotor parallel to the wind direction, the wing axis is rigidly connected to the counterweight 4, which does not allow the wing to deviate at critical angles at which it can come into contact with the surface ground and obstacles on it, inside the wing are servos 3, changing the profile and angle of attack of the wing, thus providing a change in the direction of action of the lifting force, also the wing with a rotor mounted on a platform 2, which has a vertical axis of rotation, which allows the wing to navigate in the direction of the wind. The device works as follows: first, the wing is in the neutral position, when the wind turbine starts, the servos 3 bend the wing in one of the rotation directions, and when the wind flows around it, a lifting force is created that rotates the wing until it is balanced by the weight of the counterweight 4, then the servos change the bend of the wing profile and the process repeats in the opposite direction.

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