초록 ▼

A gas turbine engine has a fan section including a fan hub supporting a plurality of fan blades for rotation relative to a fan case. A shaft is rotatable relative to the fan case about an engine center axis. A geared architecture is driven by the shaft and provides driving output to rotate the fan h

A gas turbine engine has a fan section including a fan hub supporting a plurality of fan blades for rotation relative to a fan case. A shaft is rotatable relative to the fan case about an engine center axis. A geared architecture is driven by the shaft and provides driving output to rotate the fan hub. A compressor is driven by the shaft and is positioned forward of the geared architecture. The compressor includes at least first and second stages with the first stage being positioned forward of the plurality of fan blades and the second stage being positioned aft of the plurality of fan blades. The compressor includes at least one set of vanes that rotate in a first direction about the engine center axis and at least one set of compressor blades that rotate in a second direction about the engine center axis. The second direction is opposite of the first direction.

대표청구항 ▼

1. A gas turbine engine comprising: a fan section including a fan hub supporting a plurality of fan blades for rotation relative to a fan case;a shaft rotatable relative to the fan case about an engine center axis;a geared architecture driven by the shaft and providing driving output to rotate the f

1. A gas turbine engine comprising: a fan section including a fan hub supporting a plurality of fan blades for rotation relative to a fan case;a shaft rotatable relative to the fan case about an engine center axis;a geared architecture driven by the shaft and providing driving output to rotate the fan hub; anda compressor driven by the shaft and positioned forward of the geared architecture, the compressor including at least a first stage and a second stage immediately downstream of the first stage, and with each of the first and second stages including a set of blades and a set of vanes, the blades of the first stage being positioned to extend forward of the plurality of fan blades and the blades of the second stage being positioned to extend aft of the plurality of fan blades, and wherein the vanes of the first and second stages rotate in a first direction about the engine center axis and the blades of the first and second stages rotate in a second direction about the engine center axis, wherein the second direction is opposite of the first direction. 2. The gas turbine engine according to claim 1 wherein the compressor includes a rotor that is directly driven by the shaft and that drives the blades of the second stage. 3. The gas turbine engine according to claim 2 wherein the shaft directly drives the blades of the first stage. 4. The gas turbine engine according to claim 3 wherein the compressor includes a third stage positioned immediately aft of the second stage, the third stage including a third set of compressor blades driven by the rotor, and wherein the vanes of the first and second stages are fixed to the fan hub. 5. The gas turbine engine according to claim 2 including at least one inter-shaft bearing mounted directly between the shaft and the vanes of the first stage. 6. The gas turbine engine according to claim 5 wherein the at least one inter-shaft bearing is radially aligned with the plurality of fan blades. 7. The gas turbine engine according to claim 5 including a static structure and a first fan bearing positioned between the fan hub and the static structure, wherein the first fan bearing is radially outward of, and overlapping with, the second stage. 8. The gas turbine engine according to claim 7 including a second fan bearing positioned between the fan hub and the static structure, wherein the second fan bearing is radially outward of, and overlapping with, the geared architecture. 9. The gas turbine engine according to claim 1 wherein the geared architecture is comprised of a sun gear that is driven by the shaft, a plurality of gears supported by a carrier fixed to a static structure and in meshing engagement with the sun gear, and an outer annular gear in meshing engagement with the plurality of gears. 10. The gas turbine engine according to claim 1 wherein the fan section includes a plurality of static vanes extending between the fan case and a static structure, and wherein the static vanes are radially outward of, and overlapping with, the geared architecture. 11. The gas turbine engine according to claim 1 including a static structure,a first fan bearing positioned between the fan hub and the static structure, wherein the first fan bearing is radially outward of, and overlapping with, the second stage, anda second fan bearing positioned between the fan hub and the static structure, wherein the second fan bearing is radially outward of, and overlapping with, the geared architecture. 12. The gas turbine engine according to claim 11 including at least one inter-shaft bearing mounted directly between the shaft and the vanes of the first stage. 13. The gas turbine engine according to claim 12 wherein the at least one inter-shaft bearing is radially inward of, and overlapping with, the plurality of fan blades. 14. The gas turbine engine according to claim 2 wherein the vanes of the second stage are aft of the plurality of fan blades, and wherein the blades of the second stage and the vanes of the first stage are in an at least partially overlapping relationship with the plurality of fan blades. 15. A gas turbine engine comprising: a fan section including a fan outer case, a static structure positioned radially inward of the fan outer case, and a fan hub supporting a plurality of fan blades for rotation relative to the static structure;at least one fan support bearing to support the fan hub for rotation relative to the static structure;a shaft rotatable relative to the static structure about an engine center axis;a geared architecture driven by the shaft and providing driving output to rotate the fan hub; anda low pressure compressor driven directly by the shaft and positioned forward of the geared architecture and radially inward of the fan blades, the compressor including at least a first stage and a second immediately downstream of the first stage, and with each of the first and second stage including a set of blades and a set of vanes, the blades of the first stage being positioned to extend forward of the plurality of fan blades and the blades of the second stage being positioned to extend aft of the plurality of fan blades, and wherein the vanes of the first and second stages rotate in a first direction about the engine center axis and the blades of the first and second stages rotate in a second direction about the engine center axis, wherein the second direction is opposite of the first direction. 16. The gas turbine engine according to claim 15 wherein the geared architecture is comprised of a sun gear that is driven by the shaft, a plurality of gears supported by a carrier fixed to the static structure and in meshing engagement with the sun gear, and an outer annular gear in meshing engagement with the plurality of gears to drive the fan hub. 17. The gas turbine engine according to claim 15 wherein the compressor includes a rotor that drives the blades of the second stage, and wherein the shaft directly drives the rotor and directly drives the blades of the first stage. 18. The gas turbine engine according to claim 15 wherein the at least one fan support bearing comprises at least: a first fan bearing positioned between the fan hub and the static structure, wherein the first fan bearing is radially outward of, and overlapping with, the second stage, anda second fan bearing positioned between the fan hub and the static structure, wherein the second fan bearing is radially outward of, and overlapping with, the geared architecture. 19. The gas turbine engine according to claim 18 including at least one inter-shaft bearing mounted directly between the shaft and the vanes of the first stage, and wherein the at least one inter-shaft bearing is radially inward of, and overlapping with, the plurality of fan blades. 20. The gas turbine engine according to claim 17 wherein the compressor includes a third stage positioned immediately aft of the second stage, the third stage including a third set of compressor blades driven by the rotor, and wherein the compressor includes a rotor that drives the third set of compressor blades and the blades of the second stage, and wherein the vanes of the first and second stages are fixed to the fan hub. 21. The gas turbine engine according to claim 20 wherein the shaft directly drives the blades of the first stage separate from the rotor. 22. The gas turbine engine according to claim 17 wherein the vanes of the second stage are aft of the plurality of fan blades, and wherein the blades of the second stage and the vanes of the first stage are in an at least partially overlapping relationship with the plurality of fan blades.