TH9608A3 - Vertical axis wind turbine adjustable blade angle - Google Patents

Abstract

DC60 (28/07/57) Vertical axis wind turbine, adjustable blade angle according to this invention, consists of a shaft of a rotor, a lower rotor, a top rotor, a lever, a pin, a rocker arm, a shaft, a crank, a pulley, a pole at the end of the rotor axis A lower rotor and a top rotor are placed on both the bottom and top, which will support the four blades. With the anchor blade axis connected together At this axis, a rocker arm is provided to hold it. At the top end And at the other end of the rocker arm, a lever is connected by a bolt, then at the other end of the lever is worn onto the crank. Which is the piece that will cause the rocker to spin and will make Turbine blade rotates adjustable angle The lower end of the crank is fitted to the rotor shaft to provide a pivot point, which provides Bearing is a support for rotation. The part at the top end of the crank above the four levers, which is already worn, provides a tail. The tiger is wearing a seized. Therefore, when the wind changes direction, the rudder will spin towards the wind direction. Tail rotation This tiger will make the crank spin as well. When the crank rotates, it will transmit power through the lever by continuing to The rocker arms and rocker arms that are attached to the axis of the blade will allow the turbine blades to rotate and adjust the angle. At the lower end of the rotor shaft a mounting pulley is provided. To be used as a power transmission to use all the vertical axis wind turbine blades to have a pole to support all the weight. By arranging to wear together at the ends The bottom of the rotor axis next to the pulley is raised using bearings as support for rotation. The adjustable angle of this turbine blade It is so special that this invention wind turbine relies on both lifting and traction to provide torque to the rotor. Thus causing the efficiency of the head to turn higher The invention of this invention vertical axis wind turbine consists of a rotor shaft, lower rotor, upper rotor, lever pin, rocker arm, turbine blade, crank, rudder, pulley and pole at the end of the rotor axis. A top rotor is placed on both the bottom and the top, which will support the four blades with the attachment axis together. There is this axle provided with a rocker arm fixed at the top end and at the other end of the shovel arm, a rocker is connected together by a pin, then at the other end of the lever is fitted. With crank Which is the piece that will cause the rocker to spin and will make Turbine blade rotates adjustable angle At the lower end of the link, the sockets are attached to the rotor axis to form a pivot point, which provides Bearing is a support for rotation. The part at the top end of the crank above the 4 levers, which is already worn, provides a way The tiger is wearing a seized. Therefore, when the wind changes direction, the rudder will spin towards the wind direction. Tail rotation This tiger will make the joints spin as well. When the crank rotates, it will transmit power through the lever by continuing to A rocker arm and a rocker arm that attaches to the axis of the turbine blade, adjustable angle. At the lower end of the rotor shaft a mounting pulley is provided. To be used as a power transmission to use all the vertical axis wind turbines. A pole to support all the weight. By arranging to wear together at the ends The bottom of the rotor axis next to the pulley is raised using bearings as support for rotation. The angle adjustment of the blades is so special that the invention wind turbines can rely on both lift and force. Traction to give torque to the rotor, thus increasing the power efficiency of the head. EDIT (7 Aug 2014) Vertical axis wind turbine with adjustable angle according to this invention consists of axis rotor, lower rotor, upper rotor, lever, pin, rocker arm, turbine blade, crank, rudder, pulley and pole at the end of the axis. Rotor The lower rotor and the top rotor are placed on both the bottom and the top, which will support the four blades with the helical axis to attach them together. With this blade provided with a rocker arm to hold on At the top end And at the other end of the rocker arm, a rocker is arranged, connected by a bolt, then at the other end of the rocker is worn onto the crank. Which is the piece that will cause the rocker to spin and will make Turbine blade rotates adjustable angle The lower end of the crank is fitted to the rotor shaft to provide a pivot point, which provides Bearing is a support for rotation. The part at the top end of the crank above the 4 levers, which is already worn, provides a way The tiger is wearing a seized. Therefore, when the wind changes direction, the rudder will spin towards the wind direction. Tail rotation This tiger will make the joints spin as well. When the crank rotates, it will transmit power through the lever by continuing to The rocker arms and rocker arms that are attached to the axis of the blade will allow the turbine blades to rotate and adjust the angle. At the lower end of the rotor shaft, a pulley is attached. To be used as a power transmission to use the wind turbine, vertical axis, adjustable blades, all have a pole to support all the weight By arranging to wear together at the ends The bottom of the rotor axis next to the pulley is raised by using bearings as support for rotation. The adjustable angle of this turbine blade It is so special that this invention wind turbine relies on both lifting and traction to provide torque to the rotor. Thus increasing the power efficiency of the turbine

Claims (1)

1. Vertical axis wind turbine, blade angle adjustable according to this invention. Which consists of the rotor (1) the lower rotor (2a) the upper rotor (2b) the lever (3) the latch (4) the rocker arm (5) the blade axis (6) the turbine blade (7) the claw (8 Away Tiger (9) Pulley (10) Post (11) Revised (7 Aug 2014) 1. Vertical axis wind turbine adjustable blade angle according to this invention consists of a axis rotor (1) lower rotor (2a) upper rotor (2b) lever lever (3) pin (4) rocker arm (5) blade axis. (6) Turbine blade (7) Crank (8) Rudder (9) Pulley (10) Pole (11) By the rotor axis (1) the lower rotor (2a) and upper rotor (2b) are provided. The lower rotor (2a) and upper rotor (2b) have a plus sign (+) and will act. Supports all 4 turbine blades (7) with the blade axis (6) attached together. Vertical axis wind turbine, adjustable blade angle according to This invention There is a special feature is the blade axis (6) on all 4 axes to provide a rocker arm (5) fixed at the end. When the rocker arm (5) is rocked, the turbine blade (7) can rotate and adjust the angle. At the other end of the rocker arm (5), a lever (3) is provided, with these two parts connected by a pin (4) and at the other end of the lever (3) provided. It is fitted to the crank (8) where it has a z-shaped (Z) shape. This crank (8) is arranged as a component that receives tilting from the rudder (9). The rotation of the rudder (9) is transmitted. As a result, the turbine blades (7) can be rotated to adjust the angle. At the lower end of the crank (8), it is aligned with the upper end of the rotor shaft (1) to form a pivot point, with the bearing as a support for the rotation at the top end of the crank ( 8) over the 4 levers (3) that are already worn Provided a rudder (9) to be fixed, which This part serves as a device for adjusting the turbine blades (7) to face the direction of the wind. So when the wind has changed The rudder direction (9) will rotate towards the wind direction. This rotational motion of the rudder (9) causes the crank (8) to spin as well.When the crank (8) rotates, it transmits power through the rocker (3) and sends power to the rocker arm (5) and The rocker arm (5), which is attached to the tip of the blade axis (6), will cause the blade axis (6) to rotate at the end, allowing the blade (7) to be rotated to adjust the angle.