A support shaft provides lubrication to a journal bearing during windmilling operation of a gear set. A primary oil pump provides oil from an oil supply during driven operation of the fan, and a secondary oil pump provides oil from an internal sump during windmilling operation of the fan. During dri
A support shaft provides lubrication to a journal bearing during windmilling operation of a gear set. A primary oil pump provides oil from an oil supply during driven operation of the fan, and a secondary oil pump provides oil from an internal sump during windmilling operation of the fan. During driven operation of the fan, oil is pumped with the primary oil pump through a primary oil flow path to an outer surface of the support shaft. During windmilling fan operation, oil is pumped from an internal sump with a secondary oil pump through the secondary oil flow path. The secondary oil flow path has a smaller flow capacity, and the secondary oil pump is a smaller capacity pump.
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What is claimed is: 1. An epicyclic gear set comprising: a sun gear; a plurality of planet gears arranged around and driven by the sun gear; and a plurality of support shafts each associated with one of the plurality of planet gears, wherein each of the plurality of support shafts has a primary oil
What is claimed is: 1. An epicyclic gear set comprising: a sun gear; a plurality of planet gears arranged around and driven by the sun gear; and a plurality of support shafts each associated with one of the plurality of planet gears, wherein each of the plurality of support shafts has a primary oil flow path for supplying oil during driven gear operation and a secondary oil flow path for supplying oil when the sun gear is not driving the plurality of planet gears, wherein, during driven gear operation, the oil flows through the primary oil flow path and does not flow though the secondary oil flow path, and wherein, when the sun gear is not driving the plurality of planet gears, the oil flows through the secondary oil flow path and does not flow through the primary oil flow path. 2. The epicyclic gear set of claim 1, wherein the primary oil flow path enters each of the plurality of support shafts from a first side and the secondary oil flow path enters each of the plurality of support shafts from a second side opposite to the first side. 3. The epicyclic gear set of claim 1, wherein the primary oil flow path has a larger flow capacity than the secondary oil flow path. 4. The epicyclic gear set of claim 1, wherein the oil within the primary oil flow path is supplied from a first oil source and the oil within the secondary oil flow path is supplied from a second oil source, wherein the first oil source is different from the second oil source. 5. The epicyclic gear set of claim 1, wherein a primary oil pump pumps the oil to the primary oil flow path and a secondary oil pump pumps the oil to the secondary oil flow path. 6. The epicyclic gear set of claim 1, wherein each of the plurality of planet gears are supported by one of the plurality of support shafts to define a journal bearing between each of the plurality of support shafts and the plurality of planet gears. 7. The epicyclic gear set of claim 6, wherein the primary oil flow path and the secondary oil flow path supply the oil between each of the plurality of support shafts and the plurality of planet gears. 8. A turbine engine comprising: a turbofan; an epicyclic gear system for driving the fan, the epicyclic gear system including a sun gear and a plurality of planet gears arranged around and driven by the sun gear; a plurality of support shafts each associated with one of the plurality of planet gears, wherein each of the plurality of support shafts includes a primary oil flow path for supplying oil during driven gear operation and a secondary oil flow path for supplying the oil when the sun gear is not driving the plurality of planet gears; and an oil supply system to supply the oil to the primary oil flow path and the secondary oil flow path, wherein, during driven gear operation, the oil flows through the primary oil flow path and does not flow though the secondary oil flow path, and wherein, when the sun gear is not driving the plurality of planet gears, the oil flows through the secondary oil flow path and does not flow through the primary oil flow path. 9. The turbine engine of claim 8, wherein the primary oil flow path enters each of the plurality of support shafts from a first side and the secondary oil flow path enters each of the plurality of support shafts from a second side opposite to the first side. 10. The turbine engine of claim 8, wherein the primary oil flow path has a larger flow capacity then the secondary oil flow path. 11. The turbine engine of claim 8, wherein the oil supply system comprises a primary oil source to supply the oil to the primary oil flow path and an internal sump oil supply to provide the oil to the secondary oil flow path, wherein the primary oil source is different from the internal sump oil supply. 12. The turbine engine of claim 8, wherein a primary oil pump pumps the oil to the primary oil flow path and a secondary oil pump pumps the oil to the secondary oil flow path. 13. The turbine engine of claim 8, wherein each of the plurality of planet gears are supported by one of the plurality of supports shafts, and a journal bearing is defined between each of the plurality of support shafts and the plurality of planet gears. 14. The turbine engine of claim 13, wherein the primary oil flow path and the secondary oil flow path supply the oil between each of the plurality of support shafts and the plurality of planet gears. 15. The epicyclic gear set of claim 1, wherein the primary oil flow path is transverse to the secondary oil flow path. 16. The epicyclic gear set of claim 1, wherein the oil within the primary oil flow path is supplied from a first oil source, the oil within the secondary oil flow path is supplied from a second oil source, a primary oil pump pumps the oil from the first oil source to the primary oil flow path, a secondary oil pump pumps the oil from the second oil source to the secondary oil flow path, the first oil source is different from the second oil source, and the primary oil flow path has a larger flow capacity than the secondary oil flow path. 17. The epicyclic gear set of claim 1, wherein the oil is pumped through the secondary oil flow path when a predetermined minimum pressure is measured within an oil supply system. 18. The epicyclic gear set of claim 1, wherein the plurality of planet gears are windmilling when the sun gear is not driving the plurality of planet gears. 19. The turbine engine of claim 8, wherein the primary oil flow path is transverse to the secondary oil flow path. 20. The turbine engine of claim 8, wherein the oil within the primary oil flow path is supplied from a first oil source, the oil within the secondary oil flow path is supplied from a second oil source, a primary oil pump pumps the oil from the first oil source to the primary oil flow path, a secondary oil pump pumps the oil from the second oil source to the secondary oil flow path, the first oil source is different from the second oil source, and the primary oil flow path has a larger flow capacity than the secondary oil flow path. 21. The turbine engine of claim 8, wherein the oil is pumped through the secondary oil flow path when a predetermined minimum pressure is measured within the oil supply system. 22. The turbine engine of claim 8, wherein the plurality of planet gears are windmilling when the sun gear is not driving the plurality of planet gears.
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이 특허에 인용된 특허 (5)
Sheridan William G. (Southington CT) Pagluica Gino J. (Manchester CT), Coupling system for a planetary gear train.
Schwarz, Frederick M.; Suciu, Gabriel L.; Ackermann, William K.; Kupratis, Daniel Bernard; McCune, Michael E., Gas turbine engine with high speed low pressure turbine section and bearing support features.
Ciszak, Robert John; Marsden, Keith; Kuzma, Timothy, Internal lubrication for a gearbox, a power-generating wind turbine system, and a power-generating system.
Ghanime, George Hanna; Hallman, Darren Lee; Twist, Christina Paige, Journal bearing and method of facilitating hydrodynamic oil flow, load capacity and optimization of bearing performance.
Ketchum, David A.; Thoresen, James T.; James, Denman H.; James, Reade W.; Sheridan, William G., Lubricating a rotating component during forward and/or reverse rotation.
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