Class / Patent application number | Description | Number of patent applications / Date published |
416169000 | HAVING CLUTCH OR BRAKE MEANS | 30 |
20080253893 | Damper - A damper includes a cylindrical housing, a rotor rotatably disposed in the housing and having a cylindrical shaft portion and a wing portion radially outwardly extending from the shaft portion, a control valve member disposed between the housing and the shaft portion to cover the wing portion, and a viscous fluid filled inside the housing. The wing portion has an asymmetric shape with respect to a rotational direction of the rotor relative to a straight line extending radially from the shaft portion. The wing portion includes a tip side surface, and a back end side surface. The control valve member includes a first inner surface facing a sloping surface parallel thereto, and a second inner surface facing a flat surface parallel thereto. | 10-16-2008 |
20100047071 | HORIZONTAL MOTION WAVE POWER GENERATOR - A paddle wheel-driven horizontal wave generator system which is situated on the ocean shore for converting shore waves to unidirectional rotational force for generating power. By the use of a pair of one-way clutches on a single power shaft the incoming and outgoing motion of ocean waves is converted into continuous unidirectional rotational force to drive an electric generator. The generator system is attached to a base having troughs. The lower portions of the paddle wheels are positioned in the troughs, and engage incoming and outgoing shore waves which rotate the axle of the paddle wheels in a clockwise and counterclockwise direction. The one-way clutches convert the bi-directional rotation of the paddle wheel axle to unidirectional rotation of the power shaft. | 02-25-2010 |
20100129221 | UNDERWATER STRUCTURES - An underwater structure includes a power generation apparatus and a supporting structure. A coupling is provided that allows attachment of the power generating device to the submerged support structure. The coupling incorporates the function of a yaw bearing allowing rotation of the power generating apparatus about a substantially vertical axis. | 05-27-2010 |
20100232965 | Vertical axis wind turbine - A vertical axis wind turbine has a stator shaft, an electrical generator, a rotating shaft and multiple blades. The electrical generator is rotatably mounted around the stator shaft. The rotating shaft is mounted on and protrudes from the electrical generator. The multiple blades are disposed around the electrical generator and orientated to balance each other. Each blade is connected to the rotating shaft by at least one strut and has a luff edge tapering to a lee edge. The at least one strut is formed on and protrudes from the blade is connected to the rotating shaft. The blades are rotated by the wind independent of wind direction and rotate the electrical generator to convert wind power into electric power. | 09-16-2010 |
20100329867 | DRIVETRAIN SYSTEM FOR A WIND TURBINE GENERATOR AND METHOD OF ASSEMBLING THE SAME - A drivetrain for a wind turbine includes a gearbox and a generator. The gear box includes a housing and an output shaft that is rotatably coupled within the housing, wherein the gearbox further includes at least one bearing positioned between the housing and the output shaft. The generator includes a stator coupled to the housing such that the stator is positioned radially outward from the housing, and a rotor coupled to the output shaft such that the rotor is positioned radially inward from the stator. | 12-30-2010 |
20110014048 | HYDRAULIC SYSTEM AND METHOD FOR OPERATING A BRAKE OF A WIND TURBINE - A hydraulic system and method for controlling the brake of a wind turbine are provided. During operation of the wind turbine, pressurized working fluid in the hydraulic system is blocked from being supplied to the brake. Even if some of this fluid does reach the brake, it is drained to prevent a pressure build-up and activation. To activate the brake, this drainage is stopped and the pressurized fluid is supplied to the brake. The blocking and unblocking the pressurized working fluid may be controlled by first and second activation valves arranged in parallel in a supply line that communicates the working fluid to the brake. | 01-20-2011 |
20110033298 | OUTDRIVE UNIT FOR BOATS - An object of the present invention is to provide an outdrive unit that allows space to be saved in the positioning of a hydraulic circuit for trolling, and enables easy maintenance of the hydraulic circuit for trolling. The invention provides an outdrive unit mounted outside of a boat, including: a propeller for propulsion; a hydraulic clutch that controls driving of the propeller; a transmission mechanism that transmits drive power from the hydraulic clutch to the propeller; a hydraulic circuit that operates the hydraulic clutch, the hydraulic circuit comprising a switching valve that switches a rotational direction of the propeller, a pressure-reducing valve for trolling that reduces a pressure of a pressurized oil supplied to the hydraulic clutch, a filter for the pressurized oil introduced to the pressure-reducing valve, and a hydraulic pump that supplies the pressurized oil to the hydraulic clutch; a housing that houses at least one of the hydraulic clutch, transmission mechanism, and hydraulic circuit; a base on which the switching valve, pressure-reducing valve, and filter are mounted, the base being detachably mounted in the housing. | 02-10-2011 |
20110123338 | Brake System with Expansion Absorbing Means, Generator and Wind Turbine - A brake system comprising a brake disc is disclosed. The brake system comprises at least one flexible portion. The at least one flexible portion is configured for compensating expansion of the brake disc and/or absorbing the expansion of the brake disc. The brake system is especially for a wind turbine generator. | 05-26-2011 |
20110123339 | Brake System for a wind turbine with integrated rotor lock generator and wind turbine - A brake system for a wind turbine with integrated rotor lock, generator and wind turbine are disclosed. The brake system includes a rotor lock system which is integrated in the brake system. One embodiment includes an actuator such as a hydraulic cylinder. Another embodiment includes a rotor assembly with a brake disc. | 05-26-2011 |
20110211961 | METHOD AND SYSTEM FOR BRAKING IN A WIND TURBINE - A braking system for a wind turbine is provided. The system includes one or more motors for driving a part of the wind turbine, a first group of brakes for braking the part of the wind turbine, and a second group of brakes for braking the part of the wind turbine. The first group of brakes is in a normally closed condition and the second group of brakes is in a normally open condition, so that a default brake torque can be selectively chosen that is less than a maximum brake torque. | 09-01-2011 |
20110229323 | FAN DRIVE SYSTEM WITH OIL PRESSURE CONTROL - Hydraulic fan drive system with oil pressure control. A microprocessor based three-way valve is utilized for modulating the oil pressures. Closed loop feedback is used for optimal control of the fan speed. | 09-22-2011 |
20120020792 | WIND POWER PLANT - The invention is directed to a wind power plant having a rotor mounted rotatably about an axis directed approximately in the wind direction, and having at least two mutually concentric annular elements for connection to oppositely rotatable system components of the wind power plant, one of which comprises means for connection to the rotor of the wind power plant or to a drive shaft of a gearbox coupled thereto; at least one element having a freewheel characteristic is disposed between the two connection elements and together with them forms a freewheel, at least one connection element being provided with at least one integrated raceway for a row of rolling bodies rolling thereon. | 01-26-2012 |
20120057979 | OFFSHORE WIND POWER SYSTEM - A wind power system comprising a vertical tower defining a vertical travel path; a carriage mounted to the tower and configured to move along the travel path; and wind turbine mounted to the carriage and having rotatable blades to convert wind energy into electrical energy. The system may include one or more gear racks secured to the outside diameter of the tower upon which the carriage moves. The system may include a locking mechanism configured to lock the carriage in a working position at a top of the travel path, a maintenance position at a bottom of the travel path, and/or a storm position at a midpoint of the travel path. The turbine may be configured to hold the blades in a vertical alignment parallel to the tower, when the carriage is in the storm position. | 03-08-2012 |
20120134830 | Safety System for Wind Turbines and Related Wind Turbine - A safety system for wind turbines and a wind turbine fitted with this safety system. The safety system comprises a propeller shaft adapted to be solidly connected to a wind turbine rotor, an adjustment shaft movable with respect to this propeller shaft for adjusting the pitch angle of at least a rotor blade, actuating means connected to the adjustment shaft for moving it and triggering means of said actuating means being normally disconnected to said actuating means until to overcoming a certain speed of the propeller shaft. The peculiarity of the wind turbine safety system is that triggering means comprise mechanical means connected to the actuating means through direct drive transmission as to overcoming said certain speed for moving said actuating means until rotor blades being safety set. This solution ensures the safety system maximum effectiveness and certainty of operation. | 05-31-2012 |
20120243998 | Wind turbine with an automatic liquid lubricant changing arrangement - A wind turbine includes a component arranged in the nacelle of the wind turbine, which component requires lubricating with a liquid lubricant. An automatic liquid lubricant changing arrangement includes a source of fresh liquid lubricant, a supply line for supplying fresh liquid lubricant from the source to the component, a waste liquid lubricant collecting unit for waste liquid lubricant, and a removal line for conveying waste liquid lubricant from the component to the waste liquid lubricant collecting unit. Moreover, a control device for such a wind turbine and a method of operating such a wind turbine are provided. | 09-27-2012 |
20130022467 | ROTOR ASSEMBLY INCLUDING A BIASING MECHANISM - A rotor assembly for use with a pump includes an impeller having an impeller plate and a cam ring extending from a first surface of the impeller plate and a cam plate positioned proximate the impeller plate. The cam plate includes at least one camming surface. At least one cam follower is positioned between the cam ring and the at least one camming surface. The at least one cam follower is configured to cooperate with at least one of the cam ring and the at least one camming surface to enable the impeller to rotate in a first direction and substantially prevent the impeller from rotating in a second direction opposite the first direction. | 01-24-2013 |
20130084185 | FAN BRAKE - A fan brake for a fan system. The fan system may include a fan assembly configured for seating into a cassette housing. The fan assembly may include a fan having a plurality of blades connected with a fan hub. The fan brake may be connected to the fan assembly, wherein the fan brake engages the fan hub when the fan housing is not fully seated within the cassette housing, and the fan brake disengages the fan hub when the fan assembly is fully seated into the cassette housing. | 04-04-2013 |
20130330192 | LOCKING ARRANGEMENT FOR WIND TURBINES - It includes at least two mutually rotatable parts and a locking member having locking protrusions. At least one working plane passing through the locking protrusions is defined in a locking position where compression forces are concentrated which are reaction forces to external forces tending to rotate said parts relative to each other. The parts have locking protrusions defining gaps for receiving the locking protrusions in the locking position for preventing the parts from being rotated to each other. | 12-12-2013 |
20130330193 | TURBOMACHINERY - In a turbomachinery (S | 12-12-2013 |
20140147279 | BRAKE SYSTEM WITH EXPANSION ABSORBING MEANS, GENERATOR AND WIND TURBINE - A brake system which includes rotor assembly and a brake disc is disclosed. The brake system is arranged to rotate around an axis of rotation. The brake disk includes at least one flexible portion. The at least one flexible portion is configured for absorbing the expansion of the brake disc. | 05-29-2014 |
20140147280 | SAFETY BRAKE - The invention relates to a safety brake ( | 05-29-2014 |
20140322018 | LOCKING DEVICE FOR WIND TURBINES - Locking device for positive locking a rotor of a wind turbine, with a rotor shaft of a drive train rotatably mounted on a machine frame of the wind turbine, a locking disk and a locking bolt, the rotor shaft being non-rotatably connected with the locking disk, which has one or more through-openings for the engagement of the locking bolt, wherein the locking bolt can be substantially locked on the machine frame in a circumferential direction of the rotor shaft, and is arranged on the machine frame for displacement in substantially an axial direction of the rotor shaft, the locking bolt is constructed to be substantially rotationally symmetric about its center axis, in particular cylindrical-shaped, and is supported in a housing, wherein the housing is constructed with an inner hollow-cylindrical seat for receiving the locking bolt and an outer cylindrical shape with a center axis. | 10-30-2014 |
20140369838 | LOCKING ARRANGEMENT FOR A WIND TURBINE AND WIND TURBINE HAVING SUCH LOCKING ARRANGEMENT - A locking arrangement comprises a locking member having a longitudinal axis that is contained in a working plane where shear forces are concentrated when the locking member is in a locking position. The working plane is arranged substantially parallel to the axis of rotation of the parts to be locked when in said locking position in which at least one part of the wind turbine is prevented from being rotated relative to at least another part around said axis of rotation. A Wind turbine generator is provided having a rotor with a rotor flange portion and a stator with a stator flange portion, with both flange portions being complimentarily shaped and defining a locking housing for receiving said locking member. | 12-18-2014 |
20150330300 | TWO SPOOL ENGINE CORE WITH A STARTER - A gas turbine engine has a first spool, a second spool, and a one-way clutch connecting the first and second spools. The one-way clutch disengages from the second spool when the first and second spools rotate at a predetermined speed. | 11-19-2015 |
20150337804 | Wind Turbine Provided With Yaw Brake - A wind turbine comprises wind turbine blades extending substantially radially from a hub on a main shaft having a substantially horizontal axis. The blades together with the hub form a rotor, which can be put into rotation by wind. The main shaft is rotatable mounted in a nacelle on top of a tower, and the nacelle may be rotated around a vertical axis in relation to the tower to adjust the rotor in relation to a prevailing wind direction. The wind turbine further comprises a yaw brake comprising a brake calliper and a brake disc or ring having a first side with a first surface and second side with a second surface, the yaw brake, when activated, acting as a rotation restriction of the nacelle in relation to the tower. The brake disc or ring is provided with one or more grooves formed in the first and/or second surfaces. | 11-26-2015 |
20160017935 | CLUTCH UNIT AND WIND POWER GENERATION DEVICE - A one-way clutch includes: a plurality of engaging elements which restrict relative rotation toward the other side of a circumferential direction by engagement with an inner ring outer circumferential surface and an outer ring inner circumferential surface and which allows the relative rotation along the other side of the circumferential direction by releasing the engagement; and a ring-shaped cage which holds the engaging elements. In a clutch unit, a positioning member which is capable of contact a side surface of the cage in an axial direction and which positions the cage along the axial direction is provided between the one-way clutch and a rolling bearing. | 01-21-2016 |
20160025073 | SHAFT COUPLING DEVICE AND WIND POWER GENERATION DEVICE - A shaft coupling device integrally rotatably connects an output shaft of a speed-up gear and an input shaft of a power generator to each other in a wind power generation device. The shaft coupling device includes a one-way clutch which is disposed between an inside rotating body and an outside rotating body along a radial direction, which integrally rotatably connects the inside rotating body and the outside rotating body to each other in a state in which a rotational speed of the output shaft exceeds a rotational speed of the input shaft, and breaks connection between the inside rotating body and the outside rotating body in a state in which the rotational speed of the output shaft is lower than the rotational speed of the input shaft. | 01-28-2016 |
20160032899 | ONE-WAY CLUTCH FOR WIND POWER GENERATION DEVICE, AND WIND POWER GENERATION DEVICE - A one-way clutch includes: an inner ring; an outer ring forming a plurality of wedge-shaped spaces together with the inner ring; and a plurality of rollers respectively disposed in the wedge-shaped spaces, and integrally rotatably connects an output shaft of a speed-up gear and an input shaft of a power generator to each other by engagement of the rollers with an outer circumferential surface of the inner ring and an inner circumferential surface of the outer ring, and breaks the connection by releasing the engagement. A relationship of 1.1<θb/θa<1.4 is satisfied, where θa represents a wedge angle of the wedge-shaped spaces obtained when a load torque is applied at an initial stage of the engagement of the rollers, and θb represents a wedge angle obtained when a maximum load torque is applied. | 02-04-2016 |
20160251977 | SYSTEM FOR BRAKING A LOW PRESSURE SPOOL IN A GAS TURBINE ENGINE | 09-01-2016 |
20170234217 | Inline Propeller Gearbox Brake | 08-17-2017 |