| Patent application number | Description | Published |
|---|
| 20090120143 | ROTATING MACHINE INCLUDING A SELF-LOCKING BALANCING MEMBER - A rotating machine includes a stationary component, a rotating component that is moveable relative to the stationary component, and a balancing member detachably mounted to the rotating component. The balancing member includes a self-locking device that selectively engages the rotating component when in a locked position and disengages the rotating component, to permit removal of the balancing member, when in an unlocked position. In this manner, the self-locking device prevents the balancing component from becoming loose during operation of the rotating machine without requiring staking the balancing component to the rotating component. | 05-14-2009 |
| 20090123282 | ROTATING MACHINE BALANCING MEMBER ASSEMBLY INCLUDING MULTIPLE INTERLOCKING BALANCING MEMBERS - A rotating machine includes a stationary member and a rotating member moveable relative to the stationary member. The rotating member includes at least one balancing member assembly receiving portion having a plurality of internal threads. The rotating machine also includes a balancing member assembly including first and second interlocking balancing members. The balancing member assembly also includes a plurality of external threads that are operatively connected to the internal threads of the balancing member assembly receiving portion. With this arrangement, the balancing member assembly provides a dynamic balance for the rotating member. | 05-14-2009 |
| 20100242614 | TUNING FREQUENCY OF ROTATING BODY TORSIONAL MODE BY ADDING DETUNER - A solution is provided for tuning the frequency of a torsional mode of interest of a rotating body (such as a generator rotor torsional mode) by adding a detuner to act as an undamped torsional vibration absorber. The detuner may be coupled to an overhung shaft extending from the rotating body. The detuner may be modular, therefore weight can be added or subtracted easily from the detuner in order to adjust the stiffness and/or inertia of the overhung shaft. This change in stiffness and/or inertia yields a torsional frequency of oscillation in the overhung shaft substantially similar to the natural frequency of the torsional mode of interest of the rotating body, therefore forcing the frequency of the torsional mode of interest of the rotating body above or below its torsional natural frequency. | 09-30-2010 |
| 20100270876 | DYNAMOELECTRIC MACHINE ROTORS HAVING ENHANCED HEAT TRANSFER AND METHOD THEREFOR - A radial duct for a dynamoelectric machine having a rotor, and a plurality of radial slots in the rotor is provided. A plurality of coils are respectively seated in the radial slots, and the coils form a plurality of radially stacked turns. The radial duct includes one or more cooling slots defined in at least a portion of the radially stacked turns, and extend in a substantially radial direction to the rotor. At least a portion of an interior surface of one or more cooling slots includes one or more ribs for enhanced heat transfer. | 10-28-2010 |
| 20100283335 | GENERATOR COIL COOLING BAFFLES - Systems are disclosed that assist in cooling generator rotor coils. In one embodiment, the system includes a stator; a rotor positioned within the stator, the rotor having: a spindle; groups of coils disposed about the spindle, each of the groups of coils including a plurality of ducts; a plurality of subslots disposed about the spindle, each of the plurality of subslots extending between the spindle and one of the groups of coils, wherein each of the plurality of subslots is in fluid communication with the one of the groups of coils; and a first baffle disposed in one of the plurality of subslots for directing a coolant into at least one of the plurality of ducts. | 11-11-2010 |
| 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 |
