TH9434A3 - 6 water turbines with continuously adjustable angle - Google Patents

Abstract

DC60 (14/03/56) 6-blade water turbine, continuously adjustable angle blade, from this invention provides 6 sets of rotor arms, 2 layers: the upper rotor arm. And the lower rotor arm Which will serve to support the axis of the turbine blade With the top hub And the lower hub serves as the connection point for the six rotor arms of this turbine. The top hub and the lower hub are right. It is attached to the axis of the other rotor where the bearing is the support for rotation. At the top hub provides pulleys or Gear teeth used to transmit power, drive power, generate electricity. The lower hub will act as a support for the transmission gear. Power of turbine blades With a pinion and a shaft as a device to transmit power from the transmission gear to drive the blade to the transmission Front and forward to the rear drive gear. The transmission shafts are supported by bearings and parallel to the shaft. With the arm of the lower rotor The rotor, which supports the turbine blades of this invention, is attached to the Beam supported by rotor axis In which the characteristics of the supporting beam are double beams Where at both ends of the beam The supports are attached to the buoyancy, which is used as a support for the turbine to float on the water. The support beam is also installed as a power generator, where power is transmitted through the pulley. The axis of the rotor that is mounted to The beam is supported and locked to prevent rotation. Where the lower end of the rotor axis is provided with a sun gear, worn and fixed in place. To act as a lock, gear set, transmission, drive the blade The float design provides a curved surface when attached to the support beam. Then will look like a horn It will serve to increase the speed of water flow. 6-blade water turbine with continuously adjustable angle blades from this invention provides 6 sets of rotor arms with 2 layers: the upper rotor arm. And the lower rotor arm Which will serve to support the axis of the turbine blade With the top hub And the lower hub serves as the connection point for all 6 sets of rotor arms of this turbine. The upper body and the said hub were right. It is attached to the axis of the other rotor where the bearing is the support for rotation. At the top hub provides pulleys or Gear teeth used to transmit power, drive power, generate electricity. The said hub will act as a support for the transmission gear. Power of turbine blades With a pinion and a shaft as a device to transmit power from the transmission gear to drive the blade to the transmission Front and forward to the rear drive gear. The transmission shafts are supported by bearings and parallel to the shaft. The rotor assembly, which supports the water turbine blade assembly from this invention, is attached to the Support beam on the rotor axis In which the characteristics of the supporting beam are double beams Where at both ends of the beam The supports are attached to the buoyancy, which is used as a support for the turbine to float on the water. The support beam is also installed as a power generator, where power is transmitted through the pulley. The axis of the rotor that is mounted to The beams are supported and locked from rotation. Where the lower end of the rotor axis is provided with a sun gear, worn and fixed in place. To act as a lock for the transmission of power to drive the blade The float design provides a curved surface when attached to the support beam. Then will look like a horn Which will serve to increase the speed of the water flow

Claims (1)

1. 6-blade continuously variable-angle turbine consists of lower rotor arm (1) upper rotor arm (2) hub support pole (3) rotor support pole (3b) transmission shaft support beam. Rear (4) Lower Hub (5) Upper Hub (6) Combination Axle (7) Spore Gear (8) Beawell Gear (9) Sun Gear (10) Rotor Shaft (11) Penius (12) Bearing (13) Front Propeller Shaft (14) Front Propeller Transmission (15) Rear Propeller Shaft (16) Bearing (16a) Pinion (17 ) Rear propeller shaft (18) Front propeller shaft (19a) Rear propeller shaft (19b) Front propeller blade (20a) Rear propeller blade (20b) Pulley (21) Support beam (22) And the float (23), which has the appearance of a horn The upper rotor arm (2) is connected by the upper hub (6) and the lower rotor arm (1), connected by the lower hub (5) with each set of the rotor arm arranged. The angles of 60 degrees to each other and serve to support the front (20a) and rear (20b) turbines, which are connected by the front axle (19a) and the rear axle (19b). Drive the front blade (14), align it front and parallel to the central rotor arm (1), with bearings (13) supporting rotation. And the transmission shaft to drive the rear blade (16) arranged on top and parallel to Support beam for the transmission shaft rear drive (4) by providing bearings (16a) to support rotation. By the beam around receiving the transmission shaft This rear set (4) is designed to be connected between the lower arm (1), either pair alternately. Gear combination There are three sets of which are installed on the lower cover (5), with the gear combination spur gear (8) and the sun gear (10) where the ratio between the set spurs (8) is set. Gear mixed with Sun Gear (10) equal to 1 to 2 has the characteristics. The power transmission is driven from the sun gear (10) to the front axle (19a) and forwarded to the rear axle (19b) by means of the power transmission by means of a 60 degree serial shaft connection, ie power. Drive from Pionian (12) can be sent to Pionian (17) via front propulsion gear (15) and rear propeller gear (18) can receive power from Pionian. (17) and the rear propeller shaft (16) In addition, the front turbine blade (20a) and the rear turbine blade (20b) rotate in the same direction. The rear propeller gear (18) must be mounted to the rear axle shaft (19b) in a face-down manner in order to fix the pinion (17), or it can be mounted as the rear propeller gear (18) face up. Up in the event that the front blade drive gear (15) is installed in the face-down manner. Beam design The rear propeller shaft supports (4), where the lower rotor arm (1) is connected in pairs. Which will make the transmission shaft The rear set (16) drive power is supported.