TH10656C3 - Vertical Axis Wind Turbine 3 Blades Adjustable Angle Blade - Google Patents

Abstract

DC60 (02/07/58) 3-blade vertical axis wind turbine, adjustable blades angle, has 3 rotor arms, with the rotor arms angled to each other 120. Degrees or into 3 points At the end of the rotor shaft A lower rotor and an upper rotor are placed on both the bottom and the top, which will support the 3 blades. With the axis of the blade to be attached together At this core provided The rocker arm is attached to 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. Where is the piece that will rock Rotation and will make the turbine blades rotate, adjust the angle The principle of operation for the turbine blades to rotate at an adjustable angle is known as a four-piece mechanical action where the lower end of the crank is fitted to the rotor axis to form the pivot point, which provides a bearing. Rotation support At the top end of the crank above the 3 levers, which are already worn, a rudder is attached, so when the wind changes direction, the rudder will turn towards the wind direction. Rotation of this rudder Will make the passages spin as well When the crank rotates, it will transmit power through the lever to the rocker arm. And the rocker arm, which is attached to the axis of the blade, will make the turbine blade rotate and adjust the angle At the lower end of the rotor core Provided with a pulley To be used as a transmission to use All the weights of the 3 vertical axis wind turbines with adjustable angle blades are provided with a support pole. By placing them together at the lower end of the rotor shaft next to the pulley up By using bearings as a support for rotation The angle adjustment of the turbine blades is a special thing that makes the wind turbine from This invention can rely on both lift and traction to provide torque to the rotor, thereby increasing turbine power efficiency. Edit 14/07/2015 (02/07/2015) 3 vertical axis wind turbines with adjustable angle blades. 3 rotor arms, with the rotor arms angled to each other 120 Degrees or into 3 points At the end of the rotor shaft A lower rotor and an upper rotor are placed on both the bottom and the top, which will support the 3 blades. With the axis of the blade to be attached together At this core provided The rocker arm is attached to 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. Where is the piece that will rock Rotation and will make the turbine blades rotate, adjust the angle The principle of operation for the turbine blades to rotate at an adjustable angle is known as a four-piece mechanical action where the lower end of the crank is fitted to the rotor axis to form the pivot point, which provides a bearing. Rotation support At the top end of the crank above the 3 levers, which are already worn, a rudder is attached, so when the wind changes direction, the rudder will turn towards the wind direction. Rotation of this rudder Will make the passages spin as well When the crank rotates, it will transmit power through the lever to the rocker arm. And the rocker arm, which is attached to the axis of the blade, will cause the turbine blades to rotate and adjust the angle. At the lower end of the rotor core Provided with a pulley To be used as a transmission to use All the weights of the 3 vertical axis wind turbines with adjustable angle blades are provided with a support pole. By placing them together at the lower end of the rotor shaft next to the pulley up By using bearings as a support for rotation The angle adjustment of the turbine blades is a special thing that makes the wind turbine from This invention can rely on both lift and traction to provide torque to the rotor, thereby increasing turbine power efficiency -------------------------- ----------------------------------------- Vertical Axis Wind Turbine 3 Blades Angle adjustable, has 3 rotor arms, with the rotor arms angled to each other 120 Degrees or into 3 points At the end of the rotor shaft A lower rotor and an upper rotor are placed on both the bottom and the top, which will support the 3 blades. With the axis of the blade to be attached together At this core provided The rocker arm is attached to 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. Where is the piece that will rock Rotation and will make the turbine blades rotate, adjust the angle The principle of operation for the turbine blades to rotate at an adjustable angle is known as a four-piece mechanical action where the lower end of the crank is fitted to the rotor axis to form a pivot point where the bearings are formed. Rotation support At the top end of the crank above the 3 levers, which are already worn, there is a fixed rudder, so when the wind changes direction, the rudder will turn towards the wind direction. Rotation of this rudder Will make the passages spin as well When the crank rotates, it will transmit power through the lever to the rocker arm. And the rocker arm, which is attached to the axis of the blade, will make the turbine blade rotate and adjust the angle At the lower end of the rotor core Provided with a pulley To be used as a transmission to use All the weights of the 3 vertical axis wind turbines with adjustable angle blades are provided with a support pole. By placing them together at the lower end of the rotor shaft next to the pulley up By using bearings as a support for rotation The angle adjustment of the turbine blades is special that makes the wind turbine from This invention can rely on both lift and traction to provide the rotor torque, thus increasing turbine power efficiency.

Claims (5)

Terms and conditions (all) which will not appear on the advertisement page: EDIT 14/07/2015 (02/07/2015) 1. 3-blade vertical axis wind turbine, adjustable blade angle according to this invention. Which consists of Upper rotor (1) Lower rotor (2) Rotor shaft (3) Crank (4) Lever lever (5) Pin (6) Rocker arm (7) Leaf shaft (8) Turbine blade (9) Rudder (10) ) Pulley (11) Pole (12) by the upper rotor (1) and lower rotor (2) are provided with the rotor shaft (3) as a coupling device, fixed. Both below and above The lower rotor (2) and the upper rotor (1) are used to support the three blades (9) with the axis (8) to attach them together. The unique feature of this invention is to have a rocker arm (7) fixed at the end of the blade axis (8). When the rocker arm (7) is rocked, the turbine blade (9) can be rotated to adjust the angle. At the other end of the rocker arm (7), a lever (5) is connected by a pin (6), and at the other end of the lever (5) is fitted to the crank (4). Where is the piece that will cause the rocker to spin At the lower end of the crank (4) aligns with the rotor axis (3) to provide a pivot point where bearings are used to support rotation. Part at the top end of The crank (4) over the lever (5) has a rudder (10) fixed, so when the wind changes the direction of the rudder (10), it turns towards the wind direction. This rotational motion of the rudder (10) causes the crank (4) to spin as well.When the crank (4) rotates, it sends power through the lever (5) to the rocker arm (7) and the rocker arm ( 7) Where to wear The axis of the blade (8) will make the turbine blades (9) rotate and adjust the angle. 2. 3 vertical axis wind turbines, the blade angle can be adjusted according to claim 1, which has the number of blades of 3 turbines as a sheet. Smooth 1.83 4. 3 vertical axis wind turbines with adjustable blade angle according to claim 1, where the crank (4) must have a ratio of The radius to the length of the rocker arm (7) is 1: 1.5 5. 3 vertical axis wind turbines with adjustable blade angle according to claim 1 where the crank (4) must have a ratio of The long radius to the length of the lower rotor radius (2) is 1: 4.8 --------------------------------- ------------------------------- 1. 3 vertical axis wind turbines, adjustable blade angle according to this invention. Which consists of Upper rotor (1) Lower rotor (2) Rotor shaft (3) Crank (4) Lever lever (5) Pin (6) Rocker arm (7) Leaf shaft (8) Turbine blade (9) Rudder (10) ) Pulley (11) Pole (12) by the upper rotor (1) and lower rotor (2) are provided with the rotor shaft (3) as a coupling device, fixed. Both below and above The lower rotor (2) and the upper rotor (1) are used to support the three blades (9) with the axis (8) to attach them together. The unique feature of this invention is that there is a rocker arm (7) fixed at the end of the axis of the blade (8) when the rocker arm (7) will cause the turbine blade (9) to adjust the angle At the other end of the rocker arm (7), a lever (5) is connected by a pin (6), and at the other end of the lever (5) is fitted to the crank (4). ) Where the handle part causes the rocking to spin. At the lower end of the crank (4) aligns with the rotor axis (3) to provide a pivot point where bearings are used to support rotation. Part at the top end of The crank (4) over the lever (5) has a rudder (10) fixed, so when the wind changes the direction of the rudder (10), it turns towards the wind direction. Rotation of the rudder (10) will cause the crank (4) to spin as well. When the crank (4) rotates, it sends power through the lever (5) to the rocker arm (7) and the rocker arm (7) Place of fastening The axis of the blade (8) will make the turbine blade (9) rotate and adjust the angle. 2. 3 vertical axis wind turbines, the blade angle can be adjusted according to claim 1, the number of wind turbines, 3 blades are flat. 1.83 4. 3 vertical axis wind turbines, adjustable blade angle according to claim 1, where the crank (4) must have a ratio of The long radius to the length of the rocker arm (7) is 1: 1.5. 5. 3 vertical axis wind turbines, adjustable blade angle according to claim 1, where the crank (4) must have a ratio of The length of the radius of the lower rotor (2) is 1: 4.8.