A spoke locking arrangement comprising a washer seated in a seat defined in a structural ring of a gas turbine engine, the washer having a portion thereof plastically deformed into an anti-rotation notch defined in the structural ring, thereby locking the washer against rotation in the seat, the was
A spoke locking arrangement comprising a washer seated in a seat defined in a structural ring of a gas turbine engine, the washer having a portion thereof plastically deformed into an anti-rotation notch defined in the structural ring, thereby locking the washer against rotation in the seat, the washer further comprising a set of holes for receiving corresponding bolts, and wherein the washer further has at least one anti-rotation tab at each hole, the anti-rotation tabs being deformable in engagement with the bolts to individually lock the same against rotation.
대표청구항▼
1. A gas turbine engine comprising a plurality of structural spokes supporting a bearing housing within a structural case, each structural spoke being mounted to a first surface of the structural case, a washer seated in a seat defined in a second surface of the structural case opposite to the first
1. A gas turbine engine comprising a plurality of structural spokes supporting a bearing housing within a structural case, each structural spoke being mounted to a first surface of the structural case, a washer seated in a seat defined in a second surface of the structural case opposite to the first surface thereof, the washer having a portion thereof plastically deformed in an anti-rotation notch defined in the structural case, the washer further having a set of holes in registry with corresponding mounting slots defined in the seat, fasteners extending through said holes and said mounting slots for threaded engagement with the structural spoke, and a set of anti-rotation tabs on said washer individually locking the fasteners against rotation. 2. The engine defined in claim 1, wherein the anti-rotation notch is defined at a periphery of the seat, and wherein the portion of the washer which is plastically deformed in the anti-rotation notch is at an outer diameter of the washer. 3. The engine defined in claim 1, wherein said anti-rotation tabs comprise a pair of anti-rotation tabs adjacent each of the holes defined in the washer, each pair of anti-rotation tabs comprising a first tab on an inner diameter of the washer and a second opposed facing tab on an outer diameter of the washer. 4. The engine defined in claim 3, wherein the anti-rotation tabs are bendable into engagement with a head of an associated one of the fasteners. 5. The engine defined in claim 1, wherein the anti-rotation tabs are bendable out of the plane of the washer for engagement with a head of the fasteners. 6. The engine defined in claim 5, wherein the seat is sized to receive the washer while the anti-rotation tabs are still lying in the plane of the washer. 7. The engine defined in claim 1, wherein the structural case is an outer structural ring of a mid-turbine frame module, and wherein the seat is defined in a radially outer circumferential surface of the outer structural ring. 8. The engine defined in claim 7, wherein the seat is recessed into the radially outer circumferential surface of the outer structural ring. 9. The engine defined in claim 1, wherein the structural spoke has a head and a shank, the shank extending along a central axis, and wherein the fasteners are threadably engaged with the head around the central axis. 10. The engine defined in claim 1, wherein the portion of the washer is punched into the anti-rotation notch. 11. In a gas turbine engine having a plurality of structural spokes structurally linking an inner structural ring to an outer structural ring; a spoke locking arrangement comprising: a washer seated in a seat defined in an outer circumferential surface of the outer structural ring, the washer having a set of holes in registry with corresponding mounting slots extending through the seat, bolts extending through said holes and said mounting slots for threaded engagement with each of the structural spokes, the bolts being individually locked against rotation by locking tabs provided on the washer, and the structural spokes being locked against rotation relative to the outer structural ring by the engagement of a portion of the washer in an anti-rotation notch defined in the outer structural ring. 12. The spoke locking arrangement defined in claim 11, wherein the portion of the washer is punched into the anti-rotation notch. 13. The spoke locking arrangement defined in claim 11, wherein the portion of the washer is plastically deformed in the anti-rotation notch. 14. The spoke locking arrangement defined in claim 11, wherein the anti-rotation notch is provided at a periphery of the seat, and wherein the portion of the washer is located at one location around an outer diameter of the anti-rotation notch. 15. The spoke locking arrangement defined in claim 11, wherein said anti-rotation tabs comprise a pair of anti-rotation tabs at each of the holes defined in the washer, each pair of anti-rotation tabs comprising a first tab projecting from an inner diameter of the washer and a second opposed facing tab projecting from an outer diameter of the washer. 16. The spoke locking arrangement defined in claim 11, wherein the anti-rotation tabs are bendable into engagement with a head of an associated one of the bolts. 17. The spoke locking arrangement defined in claim 11, wherein the anti-rotation tabs are bendable out of the plane of the washer for engagement with respective heads of the bolts. 18. A method of rotatably locking multiple bolts and a spoke, the method comprising: positioning a washer on a first side of a structural part, inserting bolts from said first side through registering holes in the washer and the structural part, threadably engaging the bolts with a structural spoke positioned on a second side of the structural part, the second side being opposite to the first side, tightening the bolts to a predetermined torque, locking the bolts against rotation by bending anti-rotation tabs formed in the washer in engagement with a head of each of the bolts, and locking the washer against rotation relative to the structural part by plastically deforming a portion of the washer in an anti-rotation notch defined in the structural part. 19. The method of claim 18, wherein plastically deforming comprises punching the washer into the locking notch. 20. The method of claim 18, wherein locking the bolts comprises trapping the head of each bolt between first and second anti-rotation tabs.
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