A turbine engine has a first disk and a second disk, each extending radially from an inner aperture to an outer periphery. A coupling, transmits a torque and a longitudinal compressive force between the first and second disks. The coupling has first means for transmitting a majority of the torque an
A turbine engine has a first disk and a second disk, each extending radially from an inner aperture to an outer periphery. A coupling, transmits a torque and a longitudinal compressive force between the first and second disks. The coupling has first means for transmitting a majority of the torque and a majority of the force and second means, radially outboard of the first means, for vibration stabilizing.
대표청구항▼
What is claimed is: 1. A turbine engine comprising: a first disk and a second disk, each extending radially from an inner aperture to an outer periphery; and a coupling, transmitting a torque and a longitudinal compressive force between the first and second disks and comprising: first means for tra
What is claimed is: 1. A turbine engine comprising: a first disk and a second disk, each extending radially from an inner aperture to an outer periphery; and a coupling, transmitting a torque and a longitudinal compressive force between the first and second disks and comprising: first means for transmitting a majority of the torque and a majority of the force; and second means, radially outboard of the first means, for vibration stabilizing of the first and second disks; said second means comprising an unsegmented spacer. 2. The engine of claim 1 wherein: the first means comprise interfitting first and second pluralities of teeth on the first and second disks, respectively. 3. The engine of claim 2 wherein: the first plurality of teeth is at an aft rim of a first sleeve extending aft from and unitarily-formed with a web of the first disk; the second plurality of teeth is at a forward rim of a second sleeve extending forward from and unitarily-formed with a web of the second disk; and the first and second disks each have an inboard annular protuberance inboard of the respective first and second sleeves. 4. The engine of claim 2 wherein: the spacer has an outwardly longitudinally concave portion having a thickness and a longitudinal extent effective to provide an increase in a longitudinal force across the spacer with an increase in rotational speed of the first and second disks. 5. The engine of claim 1 wherein: the first and second means and a central tension shaft provide essentially the only structural coupling between the first and second disks. 6. The engine of claim 1 wherein: the engine has a low speed and pressure turbine section and a high speed and pressure turbine section; and the first and second disks are in the low speed and pressure turbine section. 7. The engine of claim 6 wherein: the engine is a geared turbofan engine. 8. The engine of claim 1 further comprising: a tension shaft extending within the inner aperture of each of the first and second disks and substantially nonrotating relative to the fist and second disks. 9. The engine of claim 1 further comprising a vane stage between the first and second disks and wherein: the vane stage has a plurality of vane airfoils; and the vane stage has a sealing portion radially inboard of the vane airfoils for sealing with the coupling second means. 10. The engine of claim 1 further comprising: a third disk, extending radially from an inner aperture to an outer periphery; and a second coupling, transmitting a torque and a longitudinal compressive force between the third and second disks and comprising: first means for transmitting a majority of the torque and a majority of the force; and second means, radially outboard of the first means for vibration stabilizing of the first and second disks. 11. The engine of claim 1 wherein: there is no circumferential array of off-center tie members holding the first and second disks under longitudinal compression. 12. The engine of claim 1 wherein: there are no fasteners directly securing the first and second disks. 13. A gas turbine engine comprising: a central shaft; a plurality of blade disks, the disks each having a central aperture surrounding the shaft, and the disks defining annular cavities between adjacent pairs of the disks; a plurality of vane stages interspersed with the blade disks; a radial spline torque coupling between a first and a second of said disks; and a spacer having: a longitudinally cross-sectional profile having an outward concavity effective to provide an increase in a longitudinal force across the spacer with an increase in rotational speed of the first and second disks; and at least one radially outwardly extending sealing element for sealing with one of the vane stages. 14. The engine of claim 13 further comprising: a honeycomb sealing means on said one of the vane stages for sealing with the sealing element. 15. The rotor of claim 13 wherein: the first and second disks are turbine section disks. 16. The rotor of claim 13 wherein: the engine is a geared turbofan engine. 17. A turbine engine rotor comprising: a plurality of disks, each disk extending radially from an inner aperture to an outer periphery; a plurality of stages of blades, each stage borne by an associated one of said disks; a plurality of stages of vanes interspersed with said stages of blades; a plurality of spacers, each spacer between an adjacent pair of said disks; and a central shaft carrying the plurality of disks and the plurality of spacers to rotate about an axis with the plurality of disks and the plurality of spacers, wherein: a first of the spacers in longitudinal compression between a first and a second of the disks has first means for sealing with second means of an adjacent one of said stages of vanes; and interfitting first and second portions of said first and second disks radially inboard of said first spacer transmit longitudinal force and torque between the first and second disks. 18. The rotor of claim 17 wherein: the interfitting first and second portions comprise radial splines. 19. The rotor of claim 17 wherein: the first spacer is separately formed from the first and second disks; and the first spacer has first and second end portions essentially interference fit within associated portions of the first and second disks, respectively. 20. The rotor of claim 17 in combination with a stator and wherein: the first spacer has a longitudinal cross-section, said longitudinal cross-section having a first portion being essentially outwardly concave in a static condition, said first means extending radially outward from said first portion; and said second means comprises a honeycomb material. 21. A turbine engine comprising: a first disk and a second disk, each extending radially from an inner aperture to an outer periphery; and a coupling, transmitting a torque and a longitudinal compressive force between the first and second disks and comprising: first means for transmitting a majority of the torque and a majority of the force and comprising interfitting first and second pluralities of teeth on the first and second disks, respectively; and second means, radially outboard of the first means, for vibration stabilizing of the first and second disks and comprising a spacer having an outwardly longitudinally concave portion having a thickness and a longitudinal extent effective to provide an increase in a longitudinal force across the spacer with an increase in rotational speed of the first and second disks. 22. The engine of claim 21 wherein: the first plurality of teeth is at an aft rim of a first sleeve extending aft from and unitarily-formed with a web of the first disk; the second plurality of teeth is at a forward rim of a second sleeve extending forward from and unitarily-formed with a web of the second disk; and the first and second disks each have an inboard annular protuberance inboard of the respective first and second sleeves. 23. A turbine engine rotor comprising: a plurality of disks, each disk extending radially from an inner aperture to an outer periphery; a plurality of stages of blades, each stage borne by an associated one of said disks; a plurality of stages of vanes interspersed with said stages of blades; a plurality of spacers, each spacer between an adjacent pair of said disks; and a central shaft carrying the plurality of disks and the plurality of spacers to rotate about an axis with the plurality of disks and the plurality of spacers, wherein: a first of the spacers between a first and a second of the disks has first means for sealing with second means of an adjacent one of said stages of vanes; interfitting first and second portions of said first and second disks radially inboard of said first spacer transmit longitudinal force and torque between the first and second disks; the first spacer has a longitudinal cross-section, said longitudinal cross-section having a first portion being essentially outwardly concave in a static condition, said first means extending radially outward from said first portion; and said second means comprises a honeycomb material. 24. The rotor of claim 23 wherein: the interfitting first and second portions comprise radial splines. 25. The rotor of claim 23 wherein: the first spacer is separately formed from the first and second disks; and the first spacer has first and second end portions essentially interference fit within associated portions of the first and second disks, respectively. 26. A turbine engine rotor comprising: a plurality of disks, each disk extending radially from an inner aperture to an outer periphery; a plurality of stages of blades, each stage borne by an associated one of said disks; a plurality of stages of vanes interspersed with said stages of blades; a plurality of spacers, each spacer between an adjacent pair of said disks; and a central shaft carrying the plurality of disks and the plurality of spacers to rotate about an axis with the plurality of disks and the plurality of spacers, wherein: a first of the spacers between a first and a second of the disks has first means for sealing with second means of an adjacent one of said stages of vanes and has first and second end portions essentially interference fit radially within associated portions of the first and second disks, respectively; and interfitting first and second portions of said first and second disks radially inboard of said first spacer transmit longitudinal force and torque between the first and second disks.
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이 특허에 인용된 특허 (8)
Loisy Jean Maurice,FRX, Constant-speed twin spool turboprop unit.
Norris, Jams W.; Epstein, Alan; Roberge, Gary D.; Costa, Mark W.; Berryann, Andrew P.; Kupratis, Daniel B., Reversed-flow core for a turbofan with a fan drive gear system.
Pack, David R; Partyka, Julian; Hill, James D.; Suciu, Gabriel L; Dolansky, Gregory M; Merry, Brian D, Segmented rim seal spacer for a gas turbine engine.
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