A system for maintaining a position of a bearing compartment in a gas turbine during disassembly of a low-pressure turbine of the gas turbine engine includes a forward annular shaft defining an engine centerline axis. The system includes a ring radially inward from and engaged with an inner diameter
A system for maintaining a position of a bearing compartment in a gas turbine during disassembly of a low-pressure turbine of the gas turbine engine includes a forward annular shaft defining an engine centerline axis. The system includes a ring radially inward from and engaged with an inner diameter surface of the forward annular shaft. An aft annular shaft is radially inward from the forward annular shaft and aft of the ring. The ring is connected to a forward end of the aft annular shaft for common rotation therewith. The ring retains the aft annular shaft during disassembly. The system includes a stack nut axially held between an aft facing shoulder of the forward annular stub shaft and a forward facing surface of the ring to retain the stack nut during disassembly.
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1. A system for maintaining a position of a bearing compartment in a gas turbine during disassembly of a low-pressure turbine of the gas turbine engine comprising: a forward annular shaft defining an engine centerline axis;a ring radially inward from and engaged with an inner diameter surface of the
1. A system for maintaining a position of a bearing compartment in a gas turbine during disassembly of a low-pressure turbine of the gas turbine engine comprising: a forward annular shaft defining an engine centerline axis;a ring radially inward from and engaged with an inner diameter surface of the forward annular shaft;an aft annular shaft radially inward from the forward annular shaft and aft of the ring, wherein the ring is connected to a forward end of the aft annular shaft for common rotation therewith, the ring retaining the aft annular shaft during disassembly; anda stack nut axially held between an aft facing shoulder of the forward annular shaft and a forward facing surface of the ring to retain the stack nut during disassembly. 2. A system as recited in claim 1, further comprising a shaft radially inward from the stack nut and aft annular shaft, wherein the aft annular shaft is an aft annular stub shaft, the shaft having a threaded outer diameter surface engaged with a corresponding threaded inner diameter surface of the stack nut. 3. A system as recited in claim 1, further comprising a shaft radially inward from the stack nut and aft annular shaft, wherein the aft annular shaft is an aft annular stub shaft, the shaft having a splined outer diameter surface engaged with a corresponding splined inner diameter surface of an aft end of the aft annular stub shaft. 4. A system as recited in claim 1, wherein the stack nut includes a threaded inner diameter surface. 5. A system as recited in claim 1, wherein the aft annular shaft is an aft annular stub shaft, and wherein an aft end of the aft annular stub shaft includes a splined inner diameter surface. 6. A system as recited in claim 1, wherein the stack nut includes a grooved inner diameter surface to engage with a power turbine shaft. 7. A system as recited in claim 1, wherein the forward annular shaft is a forward annular stub shaft, wherein an inner diameter surface of the forward annular stub shaft includes an annular notch for receiving the ring. 8. A system as recited in claim 1, wherein the forward annular shaft is integrally formed with a rotor disk to form a rotor hub. 9. A system as recited in claim 1, wherein the aft annular shaft is an aft annular stub shaft, wherein an aft end of the ring includes a locking feature operatively connected to a corresponding locking feature on a forward end of the aft annular stub shaft to retain the aft annular stub shaft. 10. A gas turbine engine comprising: a shaft connecting a compressor section and a turbine section, wherein the shaft defines an engine centerline axis;a forward annular stub shaft radially outboard from the shaft for keeping a bearing compartment in place during removal of the shaft;a ring radially inward from and engaged with an inner diameter surface of the forward annular stub shaft;an aft annular stub shaft radially between the forward annular stub shaft and the shaft, wherein the aft annular stub shaft is operatively connected to an outer diameter of the shaft and operatively connected to an aft end of the ring for common rotation with the shaft and the ring;a stack nut operatively connected to an outer diameter of the shaft, wherein the stack nut is axially held between an aft facing shoulder of the forward annular stub shaft and a forward facing surface of the ring to retain the stack nut during removal of the shaft; anda bearing compartment radially outward from the forward annular stub shaft, wherein the forward annular stub shaft maintains the axial and radial position of the bearing compartment with respect to the engine centerline axis when the shaft is removed. 11. A gas turbine engine as recited in claim 10, further comprising a power turbine shaft radially inward from the shaft, wherein the stack nut includes a grooved inner diameter surface and the power turbine shaft includes a corresponding grooved outer diameter surface. 12. A gas turbine engine as recited in claim 10, wherein the stack nut includes a threaded inner diameter surface operatively connected to a threaded outer diameter surface of the shaft. 13. A gas turbine engine as recited in claim 10, wherein the shaft has a splined outer diameter surface engaged with a corresponding splined inner diameter surface of an aft end of the aft stub shaft. 14. A gas turbine engine as recited in claim 10, wherein the aft annular stub shaft includes an aft facing shoulder surface operatively connected to a forward facing shoulder surface of the shaft to axially position the shaft. 15. A gas turbine engine as recited in claim 11, wherein the stack nut includes a grooved inner diameter surface and the power turbine shaft includes a corresponding grooved outer diameter surface, and wherein the stack nut includes a threaded inner diameter surface operatively connected to a threaded outer diameter surface of the shaft, wherein during disassembly of the shaft from the stack nut, the inner diameter surface of the stack nut and the outer diameter surface of the power turbine shaft are engaged for rotation to unthread the shaft from the stack nut. 16. A method for removing portions of a low-pressure turbine section of a gas turbine engine while maintaining the position of a bearing compartment, the method comprising: rotatably engaging a stack nut with a forward end of a power turbine shaft, wherein the power turbine shaft defines an engine centerline axis and wherein the stack nut is radially outboard of the power turbine shaft;moving a low-pressure turbine shaft from a forward threaded position, wherein the low-pressure turbine shaft is in threaded engagement with the stack nut and radially inward from the stack nut, to an aft unthreaded position by rotating the power turbine shaft thereby applying torque to the stack nut and unthreading the low-pressure turbine shaft from the stack nut;removing the power turbine shaft; andremoving the low-pressure turbine shaft. 17. A method as recited in claim 16, wherein removing the low-pressure turbine shaft includes removing a low-pressure turbine. 18. A method as recited in claim 16, further comprising sliding the power turbine shaft in an aft direction to align engaging surfaces of the power turbine shaft and the stack nut. 19. A method as recited in claim 18, wherein sliding the power turbine shaft in an aft direction includes uncoupling a forward end of power turbine shaft from a power turbine transmission to facilitate the sliding. 20. A method as recited in claim 16, further comprising removing a power turbine to expose a low-pressure turbine without having to remove a bearing compartment.
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이 특허에 인용된 특허 (2)
Van Duyn Keven G., Method and apparatus for supporting a rotatable shaft within a gas turbine engine.
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