A turbine exhaust case (28) comprises a one-piece fairing (120) defining an air-flow path through the turbine exhaust case, and a multi-piece frame (100). The multi-piece frame is disposed through and around the one-piece vane fairing to support a bearing load, and comprises an inner ring (104), an
A turbine exhaust case (28) comprises a one-piece fairing (120) defining an air-flow path through the turbine exhaust case, and a multi-piece frame (100). The multi-piece frame is disposed through and around the one-piece vane fairing to support a bearing load, and comprises an inner ring (104), an outer ring (102), a plurality of covers (110), and a plurality of radial struts (106). The outer ring is disposed concentrically outward of the inner ring, and has hollow bosses (114) with strut apertures (SA) at vane locations. The covers are secured to the hollow bosses. The radial struts pass through the one-piece vane fairing and through apertures in the outer angled ring, and are radially fastened to the inner ring and the flat caps.
대표청구항▼
1. A turbine exhaust case comprising: a one-piece fairing defining an airflow path through the turbine exhaust case; anda multi-piece frame disposed through and around the one-piece fairing to support a bearing load, the multi-piece frame comprising: an inner ring;an outer ring disposed concentrical
1. A turbine exhaust case comprising: a one-piece fairing defining an airflow path through the turbine exhaust case; anda multi-piece frame disposed through and around the one-piece fairing to support a bearing load, the multi-piece frame comprising: an inner ring;an outer ring disposed concentrically outward of the inner ring, and having hollow bosses with strut apertures at vane locations;a plurality of covers secured to the hollow bosses;a plurality of radial struts passing through the one-piece fairing and through the strut apertures in the outer ring, and radially fastened to the inner ring and the covers; andadjustment means extending radially through the covers to the hollow bosses to adjust the separation distance between the covers and the hollow bosses, and thereby adjust the radial position of each of the plurality of radial struts. 2. The gas turbine exhaust case of claim 1, wherein the multi-piece frame is formed of steel. 3. The gas turbine exhaust case of claim 2, wherein the multi-piece frame is formed of sand-cast steel. 4. The gas turbine exhaust case of claim 1, wherein the fairing is monolithically formed. 5. The gas turbine exhaust case of claim 1, wherein the fairing is formed of a material rated for a higher temperature than the multi-piece frame. 6. The gas turbine exhaust case of claim 1, wherein the fairing is formed of a nickel-based superalloy. 7. The gas turbine exhaust case of claim 1, further comprising airtight seals disposed between the hollow bosses and the covers. 8. The gas turbine exhaust case of claim 1, wherein the adjustment means are adjustable cover fasteners that secure the covers to the hollow bosses, and that extend into the hollow bosses. 9. The gas turbine exhaust case of claim 1, wherein the adjustment means are adjustable cover spacers that abut the hollow bosses. 10. The gas turbine exhaust case of claim 1, wherein each of the plurality of radial struts are fastened to the outer covers and the inner ring via outer and inner radial bolts, respectively. 11. A turbine exhaust case frame comprising: an inner cylindrical ring;an outer frustoconical ring with a plurality of angularly distributed hollow strut bosses;a plurality of radial struts secured to the inner cylindrical ring via radial fasteners;a plurality of covers radially anchored to each of the plurality of radial struts, and spaced radially outward from the hollow strut bosses; andadjustment means extending radially through the covers to the hollow strut bosses to adjust the separation distance between the covers and the hollow strut bosses, and thereby adjust the radial position of each of the plurality of radial struts. 12. The turbine exhaust case of claim 11, wherein the adjustment means comprise adjustable cover fasteners extending into the hollow strut bosses, and wherein the plurality of covers are anchored to and spaced radially outward from the hollow strut bosses by the adjustable cover fasteners. 13. The turbine exhaust case of claim 11, wherein the adjustment means comprise adjustable cover spacers abutting the hollow strut bosses, and wherein the plurality of covers are spaced radially outward from the hollow strut bosses by the adjustable cover spacers. 14. The turbine exhaust case of claim 11, wherein the plurality of radial struts are anchored to the covers and the inner cylindrical ring via radial bolts. 15. The turbine exhaust case of claim 11, further comprising airtight seals disposed between the hollow bosses and the covers. 16. A method of assembling a turbine exhaust case, the method comprising: Aligning fairing vanes of a flow path defining fairing, radial fasteners on an inner frame ring, and strut apertures in a strut boss of an outer frustoconical ring;inserting a radial strut from radially outside the outer frustoconical ring, through one of the strut aperture and the fairing vane;securing the radial strut to the inner frame ring via the radial fasteners;securing the radial strut to a flat cover radially outside of the strut boss, and spanning the one of the strut apertures; andadjusting the separation distance between the cover and the radial strut boss to adjust the radial position of the radial strut. 17. The method of claim 16, wherein adjusting the separation distance between the cover and the radial strut comprises tightening or loosening a cover fastener extending through the cover into the strut boss. 18. The method of claim 16, wherein adjusting the separation distance between the cover and the radial strut comprises tightening or loosening a cover spacer extending through the cover and abutting the strut boss. 19. The method of claim 16, further comprising sealing the outer frustoconical ring with a seal situated between the flat cover and the strut boss.
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Diantonio, Gregory L., "L" butt gap seal between segments in seal assemblies.
Tauber Arthur (Elberon NJ) Tidrow Steven C. (Eatontown NJ), C-axis oriented high temperature superconductors deposited onto new compositions of garnet.
Burdgick Steven S. (Clifton Park NY) Hess John R. (Clifton Park NY) Mercer Gary D. (Ballston Lake NY) Crum Gregory A. (Greenville SC) Cencula James E. (Ballston Lake NY) Eastman John A. (Clifton Park, Casing distortion control for rotating machinery.
Guimbard, Jean-Michel Bernard; Pabion, Philippe Jean-Pierre; Prestel, Sebastien Jean Laurent; Soupizon, Jean-Luc, Inter-turbine casing with cooling circuit, and turbofan comprising it.
Halchak Kenneth L. (Wilmington NC) Schwarz Daniel C. (Hamilton OH) Birmingham Martin L. (West Chester OH), Method for assembling a turbine frame assembly.
Nguyen, Ly D.; Cruse, Louis; Fowkes, Ivar Gene; Salas, Silvestre; North, William; Kadambi, Vadanth, Method of forming a thermally isolated gas turbine engine housing.
Arraitz Anne-Marie,FRX ; Bil Eric Stephan,FRX ; Hacault Michel Gerard Paul,FRX ; Leray Laurent Philippe Yves,FRX ; Loubet Michel Jean,FRX ; Marchi Marc Roger,FRX ; Morcillo Jean Manuel,FRX ; Mortgat , Method of reducing the gap between a liner and a turbine distributor of a turbojet engine.
McNickle Alan D. (Sellersville PA) Hwang Mingfong (Lansdale PA) Pope Adam N. (Cincinnati OH), Seal for sealing an incompressible fluid between a relatively stationary seal and a movable member.
Lescure, Xavier Firmin Camille Jean; Massot, Aurelien Rene-Pierre; Prestel, Sebastien Jean Laurent; Schnell, Christian Rene, Sealing a hub cavity of an exhaust casing in a turbomachine.
Coign,Robert Walter; Humanchuk,David John; Foster,Gregory Thomas; Worley,Kevin Lee, System for sealing an inner retainer segment and support ring in a gas turbine and methods therefor.
Grateau Roland M. E. (Viry Chatillon FRX) Guibert Alain J. E. (Savigny le Temple FRX) Henu Alain J. C. (Le Mee sur Seine FRX) Kapala Patrick (Claye FRX) Mareix Jean-Pierre L. (Avon FRX) Monchois Flor, Turbine casing delimiting an annular gas flow stream divided by radial arms.
Meade Robert J. (West Chester OH) Albrecht Richard W. (Fairfield OH) Weisgerber Robert H. (Loveland OH), Turbine disk interstage seal axial retaining ring.
Weisgerber Robert H. (Loveland OH) Albrecht Richard W. (Fairfield OH) Glynn Christopher C. (Hamilton OH) Kutney ; Jr. John T. (Cincinnati OH) Meade Robert J. (West Chester OH), Turbine disk interstage seal system.
Vdoviak John W. (Marblehead MA) Moyer Roy E. (Cincinnati OH) Evans Dennis C. (Topsfield MA), Turbine engine assembly with aft mounted outlet guide vanes.
Fledderjohn Steve R. (Cincinnati OH) Przytulski James C. (Fairfield OH) Elston ; III Sidney B. (Cincinnati OH) Gilchrist Alan R. (Fairfield OH) Hauser Ambrose A. (Wyoming OH), Turbine support assembly including turbine heat shield and bolt retainer assembly.
Soechting Friedrich O. (Tequesta FL) Plank William L. (Tequesta FL) Hall Kenneth B. (Klingnau CHX), Turbine vane assembly with multiple passage cooled vanes.
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