RU2072444C1 - Cap-shaped wind wheel - Google Patents

Abstract

FIELD: wind power engineering. SUBSTANCE: cap-shaped wind wheel is made up as hemispheres secured to the vertical axle. The hemispheres have openings instead of the bottoms. The openings receive two blades mounted on the axle. The diameter of the opening is 30-50% of the diameter of the hemisphere. The blades are provided with openings whose area is 1-2% of the area of the blade that does not allow the air flowing in the hemisphere to return. EFFECT: improved design. 1 dwg

Description

 The invention relates to wind energy and can be used as a wind wheel of a wind turbine, as well as a working body of an anemometer, hydro-wheel, etc.

 Among measuring instruments, a cup anemometer is known, which is a vertical axis to which hemispheres or hemispheres are attached. Since the pressure of the air flow is greater on the concave side of the hemisphere, the device comes into rotation, passing it to the counting mechanism (Handbook of hydrometeorological instruments and installations, L. Gidrometeoizdat, 1971, p. 9).

 A disadvantage of the known device is its low efficiency.

 The purpose of the invention is to increase the efficiency of the cup anemometer and use it as a wind wheel.

 The goal is achieved by the fact that the bottom of the hemispheres is removed and two blades on the vertical axis are placed in the formed opening, which are moved apart in the opposite direction under the pressure of the wind when the hemispheres move against the wind and shift when they go in the wind, creating a torque. To increase it, the blades have holes to eliminate the return of part of the air flow.

 The drawing shows a diagram of the proposed device.

 The wind wheel has an axis 1 of the hemisphere, a rod 2, a hemisphere 3, an opening 4, the blades 5, the axis 6 of the blades, holes 7.

 The wind wheel acts as follows.

 Under the pressure of the wind in the hemisphere, which goes along the wind of the blade 3, the opening 4 is closed. The holes 6 on the blades 3 impede the return air flow. When the hemisphere is facing upwind, the blades move apart and through the opening 4 the flow passes with minimal resistance, which creates a torque. The opening 4 has a diameter less than the diameter of the hemisphere by 35-50% and the area of the holes 7 on the blades 5 is 1-2% of their area, as a result of which the wind wheel uses the air flow imposed on the hemisphere with the maximum possibility.

Claims (1)

 A cup-type wind wheel with a vertical axis with hemispheres attached to it, characterized in that a circular opening is located in the bottom of the hemispheres, in which two blades are located on the axis, and holes with an area of 1 2% of the blade area are made in the blades.