초록 ▼

A gas turbine engine includes a compressor having first annular connection structure at a forward end portion of an air inlet housing of the compressor. The gas turbine engine may also include intake ducting having second annular connection structure adjacent a central passage of the intake ducting.

A gas turbine engine includes a compressor having first annular connection structure at a forward end portion of an air inlet housing of the compressor. The gas turbine engine may also include intake ducting having second annular connection structure adjacent a central passage of the intake ducting. The first annular connection structure and the second annular connection structure may form at least part of an interface between the air inlet housing and the intake ducting during operation of the gas turbine engine. The first and second annular connection structures may have shapes allowing the first annular connection structure to be moved through and beyond the second annular connection structure in a forward direction, the forward direction being opposite a direction of compressed air flow in the compressor during operation.

대표청구항 ▼

1. A gas turbine engine, comprising: a compressor having a first annular connection structure at a forward end portion of an air inlet housing compressor;intake ducting having a second annular connection structure adjacent a central passage of the intake ducting, the first annular connection structu

1. A gas turbine engine, comprising: a compressor having a first annular connection structure at a forward end portion of an air inlet housing compressor;intake ducting having a second annular connection structure adjacent a central passage of the intake ducting, the first annular connection structure and the second annular connection structure forming at least part of an interface between the air inlet housing and the intake ducting during operation of the gas turbine engine; andwherein the first and second annular connection structures have shapes allowing the first annular connection structure to be moved through and beyond the second annular connection structure in a forward direction, the forward direction being opposite a direction of compressed air flow in the compressor during operation. 2. The gas turbine engine of claim 1, further comprising: a gear box on a forward end portion of the compressor; andwherein the compressor and the intake ducting have shapes such that, when the compressor and intake ducting are unfastened from one another, the compressor can be moved in the forward direction to an extent such that the gear box extends at least partially forward of a forward end portion of the intake ducting. 3. The gas turbine engine of claim 1, further including a structure that must be released before the first annular connection structure can be moved through and beyond the second annular connection structure in the forward direction. 4. The gas turbine engine of claim 3, wherein the structure that must be released before the first annular connection structure can be moved through and beyond the second annular connection structure in the forward direction includes an annular ring connected between the first annular connection structure and the second annular connection structure. 5. The gas turbine engine of claim 1, further including structure that sits between the first annular connection structure and the second annular connection structure at the interface between the air inlet housing and the intake ducting. 6. The gas turbine engine of claim 1, further including an annular ring connecting the first annular connection structure to the second annular connection structure. 7. The gas turbine engine of claim 6, wherein the annular ring includes an outer flange and an inner flange, each of the outer flange and the inner flange extending in a direction substantially radial relative to a longitudinal axis of the compressor. 8. The gas turbine engine of claim 6, wherein the annular ring includes an annular rib extending at an angle to the outer flange and the inner flange, and wherein during operation of the gas turbine engine, the annular rib sits between the first annular connections structure and the second annular connection structure at the interface between the air inlet housing and the intake ducting. 9. The gas turbine engine of claim 6, wherein the annular ring extends radially between the first annular connection structure and the second annular connection structure. 10. The gas turbine engine of claim 6, wherein the annular ring includes a first plurality of fastener holes mating with a second plurality of fastener holes on the second annular connection structure. 11. The gas turbine engine of claim 10, wherein the annular ring includes a third plurality of fastener holes mating with a fourth plurality of fastener holes on the first annular connection structure. 12. The gas turbine engine of claim 6, wherein the annular ring includes a first plurality of fastener holes mating with a second plurality of fastener holes on the first annular connection structure. 13. The gas turbine engine of claim 1, further comprising: a gear box on a forward end portion of the compressor; andalong a longitudinal axis of the gas turbine engine, the first annular connection structure is disposed between the gear box and an aft end of the compressor. 14. The gas turbine engine of claim 13, wherein: the compressor and the intake ducting have shapes such that the compressor may be moved in the forward direction from a position where the hear box is disposed aft of the second annular connection structure, to a position where the compressor is forward of the second annular connection structure and the first annular connection structure is aligned with the second annular connection structure, to a position where the first annular connection structure is disposed forward of the second annular connection structure. 15. A method of operating and servicing a gas turbine engine having a compressor and intake ducting, the method comprising: operating the gas turbine engine to produce power with the compressor disposed in a first position and connected to the intake ducting; andwith the gas turbine engine not operating to produce power, moving the compressor through and beyond the intake ducting from the first position in a forward direction relative to the intake ducting, the forward direction being opposite a direction of the compressed air flow in the compressor during operation. 16. The method of claim 15, wherein: the compressor includes a first annular connection structure at a forward end portion of an air inlet housing of the compressor;the intake ducting includes a second annular connection structure adjacent a central passage of the intake ducting, the first annular connection structure and the second annular connection structure interfacing with one another during operation of the gas turbine engine; andthe moving of the compressor includes moving the first annular connection structure through and beyond the second annular connection structure in the forward direction. 17. The method of claim 16, further comprising: a gear box on a forward end portion of the compressor; andthe moving of the compressor further includes moving the compressor in the forward direction to a position where the gear box extends at least partially forward of the forward end portion of the intake ducting. 18. The method of claim 15, further comprising: a gear box on a forward end portion of the compressor; andthe moving of the compressor includes moving the compressor in the forward direction to a position where the gear box extends at least partially forward of a forward end portion of the intake ducting. 19. The method of claim 15, wherein operating the compressor with the gas turbine engine to produce power with the compressor in the first position and connected to the intake ducting includes operating with the compressor connected to the intake ducting by an annular ring connected between the compressor and the intake ducting. 20. The method of claim 19, further comprising, before moving the compressor, unfastening the annular ring from the intake ducting. 21. The method of claim 20, further comprising, before moving the compressor, unfastening the annular ring from the compressor. 22. The method of claim 19, further comprising, before moving the compressor, unfastening the annular ring from the compressor. 23. A method of operating and servicing a gas turbine engine having a compressor, intake ducting, a gear box mounted on a forward end of the compressor, and a combustor attached to an aft end of the compressor, the method comprising: operating the gas turbine engine to produce power with the compressor disposed in a first position and connected to the intake ducting; andwith the gas turbine engine not operating to produce power, moving the compressor from the first position in a forward direction relative to the intake ducting, the forward direction being opposite a direction of the compressed air flow in the compressor during operation; andthe moving of the compressor includes: supporting the compressor with a first moveable support engaged to the gear box, the first moveable support being suspended on first guide tracks mounted to a base, the gas turbine engine being also mounted to a base,supporting the combustor with a second moveable support suspended from second guide tracks mounted to the base, andsliding the compressor, the combustor, and the first and second moveable supports on the first and second guide tracks.