Multi-stage axial compressor with counter-rotation using accessory drive
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04D-019/02
F02C-003/067
F01D-001/24
F04D-029/059
출원번호
US-0800836
(2013-03-13)
등록번호
US-9353754
(2016-05-31)
발명자
/ 주소
Gehlot, Vinod
Attia, Magdy S.
출원인 / 주소
Embry-Riddle Aeronautical University, Inc.
대리인 / 주소
Womble Carlyle Sandridge & Rice, LLP
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
A multi-stage axial compressor for counter rotation. A first series of rotor blade assemblies are mounted on and rotate with the driveshaft, each rotor blade assembly of the first series comprising a rotating stage of the multi-stage axial compressor. A second series of rotor blade assemblies provid
A multi-stage axial compressor for counter rotation. A first series of rotor blade assemblies are mounted on and rotate with the driveshaft, each rotor blade assembly of the first series comprising a rotating stage of the multi-stage axial compressor. A second series of rotor blade assemblies provide a counter-rotating stage of the multi-stage axial compressor. An accessory drive links the second series of rotor blade assemblies to the driveshaft and causes counter-rotation of the second series of rotor blade assemblies.
대표청구항▼
1. A multi-stage axial compressor for an engine, comprising: a driveshaft;a first series of rotor blade assemblies mounted on and driven by the driveshaft in a first direction so that the first series of rotor blade assemblies defines a rotating stage of the multi-stage axial compressor;a second ser
1. A multi-stage axial compressor for an engine, comprising: a driveshaft;a first series of rotor blade assemblies mounted on and driven by the driveshaft in a first direction so that the first series of rotor blade assemblies defines a rotating stage of the multi-stage axial compressor;a second series of rotor blade assemblies driven in a second direction counter to the first direction so that the second series of rotor blade assemblies defines a counter-rotating stage of the multi-stage axial compressor; andan accessory drive assembly linking the second series of rotor blade assemblies to the driveshaft, the accessory drive assembly comprising a plurality of driven shafts, including a first driven shaft coupled to the driveshaft by a first gear assembly configured to transfer power between the driveshaft and the first driven shaft, and a second driven shaft arranged in a transverse direction with respect to the first driven shaft and connected thereto by a second gear assembly such that the second driven shaft is driven by the driveshaft,wherein the second driven shaft is in communication with the second series of rotor blade assemblies to drive the second series of rotor blade assemblies in a counter-rotating direction to the direction of rotation of the first series of rotor blade assemblies, wherein the first gear assembly of the accessory drive assembly comprises a first gear mounted along the driveshaft and a second gear mounted along the first driven shaft, the first gear engaging with the second gear so as to transfer power between the driveshaft and the first driven shaft, and wherein the second gear assembly comprises a third gear mounted along the first driven shaft and configured to engage a plurality of gears arranged about the second driven shaft. 2. The multi-stage axial compressor of claim 1, further comprising a compressor housing including a rotating inner casing to which the second series of rotor blade assemblies are mounted, and a static outer casing supported on the driveshaft by a series of bearings. 3. The multi-stage axial compressor of claim 2, wherein the accessory drive assembly is mounted external to the compressor housing. 4. The multi-stage axial compressor of claim 2, further comprising a plurality of case air seals to prevent leakage of pressurized air from an aft section of the multi-stage axial compressor. 5. The multi-stage axial compressor of claim 1, further comprising a spur gear assembly connected to the second driven shaft for receiving torque transferred from the plurality of gears arranged about the second driven shaft. 6. The multi-stage axial compressor of claim 5, wherein the spur gear assembly comprises a spur or helical gear disposed along the second driven shaft that engages a second spur gear mounted to the rotating inner casing so as to transfer torque to the rotating inner casing. 7. The multi-stage axial compressor of claim 6, wherein the second spur gear is mounted on the inner casing, the spur gear assembly transferring torque to cause the inner casing to rotate counter to the driveshaft. 8. The multi-stage axial compressor of claim 1, further comprising at least one flange configured to directly connect the first series of rotor blade assemblies to the driveshaft. 9. The multi-stage axial compressor of claim 8, further comprising inlet and outlet axial guide vanes, the inlet guide vanes mounted at a fore end of the multi-stage axial compressor preceding the first and second series of rotor blade assemblies, the outlet guide vanes mounted at an aft end of the multi-stage axial compressor following the first and second series of rotor blade assemblies. 10. The multi-stage axial compressor of claim 1, further comprising a fore flange and/or an aft flange wherein the flange connects a plurality of configured to connect one or more engine components to the compressor. 11. The multi-stage axial compressor of claim 1, further comprising a thrust bearing assembly for transferring a thrust load generated by the multi-stage axial compressor to an engine frame. 12. The multi-stage axial compressor of claim 1, wherein each rotor blade assembly in the first series comprises a plurality of rotor blades arranged at a predetermined stagger angle and attached to, or formed with, an inwardly projecting support member connected to the driveshaft by a connector spline or flange. 13. The multi-stage axial compressor of claim 1, wherein the accessory drive assembly further comprises a transmission coupled to the second driven shaft and configured for varying a rotational speed of the second series of rotor blade assemblies. 14. A multi-stage axial compressor, comprising: a housing including a rotating inner casing and a static outer casing;a driveshaft rotating in a first direction;a first series of rotor blade assemblies coupled to and rotating with the driveshaft in the first direction so as to define a rotating stage of the multi-stage axial compressor;a second series of rotor blade assemblies coupled to the rotating inner casing and driven in a second direction so as to define a counter-rotating stage of the multi-stage axial compressor; andan accessory drive assembly comprising a first accessory shaft and a second accessory shaft, the first accessory shaft including a series of bevel gears mounted therealong, wherein at least one of the bevel gears engages with a corresponding gear mounted on the driveshaft for transferring power from the driveshaft to the first accessory shaft, and at least another one of the bevel gears of the series of bevel gears engages one or more gears arranged along the second accessory shaft, and wherein the second accessory shaft includes a spur gear assembly coupled thereto and including at least one spur gear that engages a corresponding spur gear coupled to the inner casing so as to transfer torque from the driveshaft to cause the inner casing and second series of rotor blade assemblies coupled thereto to rotate counter to the rotation of the first series of rotor blade assemblies. 15. The multi-stage axial compressor of claim 14, further comprising a transmission gear box for rotating the second series of rotor blade assemblies at a different speed with respect to the first series of rotor blade assemblies. 16. The multi-stage axial compressor of claim 15, wherein the transmission gear box comprises a gear reducer mechanism. 17. The multi-stage axial compressor of claim 14, wherein the static outer casing surrounds and extends along the driveshaft about a central axis of the compressor. 18. The multi-stage axial compressor of claim 14, further comprising inlet guide vanes and outlet guide vanes fixedly mounted to the static outer casing. 19. The multi-stage axial compressor of claim 18, wherein the static outer casing includes fore and aft flanges mounted thereto or formed therewith. 20. The multi-stage axial compressor of claim 19, wherein the inlet and outlet guide vanes are mounted at inlet and outlet ends of the compressor by the fore and aft flanges. 21. The multi-stage axial compressor of claim 19, wherein the fore and aft flanges are configured to connect one or more engine components to the compressor. 22. The multi-stage axial compressor of claim 14, wherein the accessory drive comprises an input section and an output section. 23. The multi-stage axial compressor of claim 14, further comprising a flange for directly connecting the first series of rotor blade assemblies to the driveshaft. 24. The multi-stage axial compressor of claim 14, further comprising a thrust bearing for transferring a thrust load generated by the multi-stage axial compressor to an engine frame via an aerodynamic strut.
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