Patent ID: 6857846

Claim:
A vertical axis wind power electrical generation device comprising: a vertically oriented rotor shaft; an upper rotor flange keyed to securely engage with the vertically oriented rotor shaft; a lower rotor flange keyed to securely engage with the vertically oriented rotor shaft; a plurality of vertically oriented inner rotor blades equally spaced at a constant radial distance around the vertically oriented rotor shaft; a plurality of vertically oriented outer rotor blades equally spaced at a constant radial distance around the vertically oriented rotor shaft; a plurality of top horizontal rotor braces radiating outward from the upper rotor flange which are connected to both the top of the plurality of vertically oriented inner rotor blades and the top of the plurality of vertically oriented outer rotor blades; a plurality of bottom horizontal rotor braces radiating outward from the lower rotor flange which are connected to both the bottom of the plurality of vertically oriented inner rotor blades and the bottom of the plurality of vertically oriented outer rotor blades; a plurality of horizontally oriented members that radiate outward from a frame flange at the top and bottom of a frame; a plurality of vertically oriented inner support poles equally spaced at constant radius around the vertically oriented rotor shaft; a plurality of vertically oriented outer support poles equally spaced at constant radius around the vertically oriented rotor shaft; a plurality of vertically oriented wind guides with inner edges hingedly connected to the vertically oriented inner support poles; a pulley assembly attached to each inner support pole; a wind guide cable located around the periphery of the inside vertical support poles and threaded through the pulley assembly provided on each inner support pole; a plurality of pneumatically driven cylinder assemblies to open and close the wind guides via action of the wind guide cable; means for controlling the pneumatically driven cylinder assemblies based on wind conditions; an air brake to slow the rotor shaft under high wind conditions; means for controlling the air brake based on wind conditions and operational parameters; a tachometer to monitor the angular speed of the rotor shaft; an air compressor and an air tank to drive the plurality of pneumatically driven cylinder assemblies to open and close the wind guide doors; a system of interconnections whereby additional windmill assemblies can be vertically stacked to provide additional wind power electrical generation capability; a lace-up cable provided around the plurality of vertically oriented outer support poles that is connected to a foundation to provide structural integrity and support for the frame; a top horizontal bracing cable; a bottom horizontal bracing cable; and a plurality of diagonal bracing cables to provide support for the rotor; a means for transferring the power of the rotating rotor shaft from the rotor shaft to an electrical generator.