A fan for a gas turbine engine is provided. The fan includes a plurality of fan blades, a disk, and a trunnion mechanism for attaching the fan blades to the disk. The disk can be formed of a plurality of individual disk segments, with the trunnion mechanism attaching one of the plurality of fan blad
A fan for a gas turbine engine is provided. The fan includes a plurality of fan blades, a disk, and a trunnion mechanism for attaching the fan blades to the disk. The disk can be formed of a plurality of individual disk segments, with the trunnion mechanism attaching one of the plurality of fan blades to a respective disk segment. A retention member is also provided. The retention member includes a means for catching a portion of the trunnion mechanism should a primary attachment system of the trunnion mechanism fail.
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1. A fan for a gas turbine engine, the fan comprising: a fan blade;a trunnion mechanism defining an axial direction and comprising a trunnion and a primary attachment system, the trunnion including a platform and a shaft formed together, the fan blade attached to the platform of the trunnion;a disk
1. A fan for a gas turbine engine, the fan comprising: a fan blade;a trunnion mechanism defining an axial direction and comprising a trunnion and a primary attachment system, the trunnion including a platform and a shaft formed together, the fan blade attached to the platform of the trunnion;a disk having a generally annular shape and comprising a disk segment, the disk segment having a collar, the trunnion extending at least partially through the disk segment and attached to the disk segment using the primary attachment system; anda retention member attached to and at least partially surrounding the collar of the disk segment and including a means for catching the trunnion should the primary attachment system fail, the retention member extending from the collar past the platform of the trunnion along the axial direction of the trunnion mechanism and the platform positioned between the retention member and the collar along the axial direction of the trunnion mechanism. 2. The fan of claim 1, wherein the retention member extends less than three hundred and sixty degrees around the platform of the trunnion about the axial direction. 3. The fan of claim 1, wherein the trunnion mechanism defines a radial direction, wherein the platform of the trunnion defines a slot extending generally along the radial direction for receipt of a root of the fan blade, wherein the slot defines a outer end along the radial direction, and wherein the retention member defines an opening over the outer end of the slot. 4. The fan of claim 1, wherein the trunnion mechanism defines a radial direction, wherein the platform of the trunnion defines an outer edge along the radial direction, and wherein the means for catching the trunnion included with the retention member is a lip extending around the outer edge of the platform of the trunnion and inwardly of the outer edge of the platform of the trunnion along the radial direction. 5. The fan of claim 4, wherein the lip does not contact the platform of the trunnion member when the primary attachment system is operating properly. 6. The fan of claim 1, wherein the collar of the disk segment defines an outer surface, wherein the trunnion mechanism defines a radial direction, wherein the collar of the disk segment includes a plurality of attachment slots in the outer surface extending along the axial direction and inwardly along the radial direction, and wherein the retention member includes a plurality of teeth also extending inwardly along the radial direction, and wherein each of the plurality of teeth are positioned in a respective one of the plurality of attachment slots to attach the retention member to the collar of the disk segment. 7. The fan of claim 6, further comprising a locking member positioned around at least a portion of the outer surface of the collar of the disk segment for holding the retention member in position, the locking member located adjacent to the plurality of attachment slots along the axial direction. 8. The fan of claim 1, wherein the retention member does not substantially support the trunnion unless the primary attachment system fails. 9. A gas turbine engine comprising: a core engine; anda variable pitch fan in mechanical communication with the core engine, the fan including:a fan blade;a trunnion mechanism defining an axial direction and comprising a trunnion and a primary attachment system, the trunnion including a platform and a shaft formed together, the fan blade attached to the trunnion;a disk having a generally annular shape and comprising a disk segment, the disk segment having a collar, the trunnion extending at least partially through the disk segment and attached to the disk segment using the primary attachment system; anda retention member attached to and at least partially surrounding the collar of the disk segment and including a means for catching the trunnion should the primary attachment system fail, the retention member extending from the collar past the platform of the trunnion along the axial direction of the trunnion mechanism and the platform positioned between the retention member and the collar along the axial direction of the trunnion mechanism. 10. The gas turbine engine of claim 9, wherein the trunnion mechanism defines a radial direction, wherein the platform of the trunnion defines an outer edge along the radial direction, and wherein the means for catching the trunnion included with the retention member is a lip extending around the outer edge of the platform of the trunnion and inwardly of the outer edge of the platform of the trunnion along the radial direction. 11. The fan of claim 1, wherein the collar of the disk segment defines an outer surface, and wherein the retention member is coupled to the outer surface of the disk segment. 12. The fan of claim 6, wherein the plurality of attachment slots are spaced generally along a circumferential direction of the trunnion mechanism. 13. The fan of claim 6, wherein the collar of the disk segment further includes a plurality of loading slots extending generally along the axial direction of the trunnion mechanism and inwardly along a radial direction of the trunnion mechanism, wherein the loading slots extend substantially along an entire length of the collar of the disk segment along the axial direction, and wherein the attachment slots extend less than the entire length of the collar of the disk segment along the axial direction. 14. The fan of claim 1, wherein the platform defines a substantially circular shape. 15. The fan of claim 1, wherein the trunnion mechanism defines a radial direction, wherein the platform of the trunnion defines an outer edge along the radial direction, and wherein the means for catching the trunnion included with the retention member is a lip extending around the outer edge of the platform of the trunnion and inwardly of the outer edge of the platform of the trunnion along the radial direction, wherein the lip defines a gap with the outer edge of the platform along the axial direction of the trunnion mechanism. 16. The fan of claim 1, wherein the primary attachment system is positioned between the shaft of the trunnion of the trunnion mechanism and the collar of the disk segment, wherein the shaft of the trunnion extends completely through the collar of the disk segment, and wherein the platform is positioned outside the collar of the disk segment.
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이 특허에 인용된 특허 (8)
Rohra Alois (Muchen DEX), Arrangement for mounting a pivotable propfan blade.
Elston ; III Sidney B. (Marblehead MA) Simon ; III Victor H. (N. Andover MA) Tseng Wu-Yang (West Chester OH) Butler Lawrence (Cincinnati OH), Propeller blade retention system.
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