Aircraft engine mounting system and method of mounting aircraft engines

The invention claimed is: 1. An aircraft engine mount system ( 20 ) configured for mounting an aircraft engine ( 22 ) to an aircraft ( 24 ), the engine mounting system ( 20 ) comprising: a yoke member ( 26 ) including: an aircraft attachment ( 34 ); a first yoke end ( 28 ) having a cylindrical or cone shape; a second yoke end ( 30 ) having a cylindrical or cone shape; the yoke member having a generally arched shape extending between the first and second yoke ends; a first engine mount ( 36 ) configured to accommodate the first yoke end; a second engine mount ( 40 ) configured to accommodate the second yoke end; wherein the first yoke end ( 28 ) and the second yoke end ( 30 ) are configured to be inserted in the first and second engine mounts ( 36 , 40 ), respectively, and interlocked therein; wherein the first yoke end ( 28 ) is secured to and within the first engine mount ( 36 ) by a fastener preventing relative sliding of the first yoke end with the first engine mount; wherein the second yoke end ( 30 ) is slidably free within the second engine mount ( 40 ); and wherein the first and second engine mounts ( 36 , 40 ) having the first and second yoke ends ( 28 , 30 ) positioned therein are configured to be secured to the aircraft engine ( 22 ) by a plurality of attachment bolts. 2. The aircraft engine mount system ( 20 ) of claim 1 further comprising: a wear resistant cap ( 60 ) positioned about the first or second yoke end ( 28 , 30 ); a wear resistant bushing ( 62 ) positioned within the first or second engine mount ( 38 , 40 ); and wherein the wear resistant cap ( 60 ) is configured to slidably be inserted into and adjacent the wear resistant bushing ( 62 ). 3. The aircraft engine mount system ( 20 ) of claim 1 further comprising at least one resilient member ( 44 ) disposed within the first engine mount ( 36 ) and configured to absorb at least a portion of a load from the first yoke end ( 28 ). 4. The aircraft engine mount system ( 20 ) of claim 3 wherein the at least one resilient member ( 44 ) is an elastomer. 5. The aircraft engine mount system ( 20 ) of claim 1 wherein the first engine mount ( 36 ) is further comprised of at least one nonresilient member ( 56 ), the at least one nonresilient member ( 56 ) being disposed between the first engine mount ( 36 ) and the first yoke end ( 28 ). 6. The aircraft engine mount system ( 20 ) of claim 5 wherein the nonresilient member ( 56 ) is a spherical bearing. 7. The aircraft engine mount system ( 20 ) of claim 6 wherein the spherical bearing is configured to accommodate a tolerancing in the first engine mount ( 36 ). 8. The aircraft engine mount system ( 20 ) of claim 1 further comprising at least one resilient member ( 44 ) disposed within the second engine mount ( 40 ) and configured to absorb at least a portion of a load from the second yoke end ( 30 ). 9. The aircraft engine mount system ( 20 ) of claim 8 wherein the at least one resilient member ( 44 ) is an elastomer. 10. The aircraft engine mount system ( 20 ) of claim 1 wherein the second engine mount ( 40 ) is further comprised of at least one nonresilient member ( 56 ), the at least one nonresilient member ( 56 ) being disposed between the second engine mount ( 40 ) and the second yoke end ( 30 ). 11. The aircraft engine mount system ( 20 ) of claim 10 wherein the nonresilient member ( 56 ) is a spherical bearing. 12. The aircraft engine mount system ( 20 ) of claim 11 wherein the spherical bearing is configured to accommodate a tolerancing in the second engine mount ( 40 ). 13. The aircraft engine mount system ( 20 ) of claim 1 wherein the first engine mount ( 36 ) includes an engine boss ( 64 ). 14. The aircraft engine mount system ( 20 ) of claim 1 further comprising a plurality of aircraft engine mount systems ( 20 ) associated with a corresponding plurality of aircraft engines ( 22 ), wherein each of the aircraft engine mount systems ( 20 ) has at least one yoke member ( 26 ) associated therewith. 15. The aircraft engine mount system ( 20 ) of claim 14 wherein the yoke members ( 26 ) are interchangeable between the aircraft engine mount systems ( 20 ) and the corresponding plurality of aircraft engines ( 22 ). 16. The aircraft engine mount system ( 20 ) of claim 1 wherein the combination of the yoke member ( 26 ), the first engine mount ( 36 ) and the second engine mount ( 40 ) provide for a self-aligning aircraft engine mount system ( 20 ). 17. The aircraft engine mount system ( 20 ) of claim 1 wherein the yoke member ( 26 ) is configured to be non-separable from the first engine mount ( 36 ) and the second engine mount ( 40 ) after being joined together with the aircraft engine ( 22 ) and the aircraft engine ( 22 ) is installed. 18. The aircraft engine mount system ( 20 ) of claim 1 wherein the first yoke end ( 28 ) and the second yoke end ( 30 ) are both conical taper ends. 19. The aircraft engine mount system ( 20 ) of claim 1 wherein the first yoke end ( 28 ) and the second yoke end ( 30 ) are both spherical taper ends. 20. The aircraft engine mount system ( 20 ) of claim 1 wherein the first engine mount ( 36 ) and the second engine mount ( 40 ) are at least hard mounts, the hard mount being free of any resilient members ( 44 ). 21. The aircraft engine mount system ( 20 ) of claim 1 wherein one of the first engine mount ( 36 ) and the second engine mount ( 40 ) is a hard mount and the other is a soft mount, the hard mount being free of at least a resilient member ( 44 ) and the soft mount including at least the resilient member ( 44 ). 22. The aircraft engine mount system ( 20 ) of claim 1 wherein the first engine mount ( 36 ) and the second engine mount ( 40 ) are soft mounts, the soft mount including at least a resilient member ( 44 ). 23. The aircraft engine mount system ( 20 ) of claim 1 wherein the aircraft attachment ( 34 ) is positioned between the first yoke end ( 28 ) and the second yoke end ( 30 ), the aircraft attachment ( 34 ) configured for attaching the yoke member ( 26 ) with the aircraft ( 24 ). 24. The aircraft engine mount system ( 20 ) of claim 23 further comprising a first yoke arm bolt associated with the first yoke end ( 28 ), the first yoke arm bolt configured to extend from the first yoke end ( 28 ) through the yoke member ( 26 ) towards the aircraft attachment ( 34 ). 25. An aircraft engine mount system ( 20 ) configured for mounting an aircraft engine ( 22 ) to an aircraft ( 24 ), the engine mounting system ( 20 ) comprising: a yoke member ( 26 ) including: an aircraft attachment ( 34 ); a first yoke end ( 28 ) having a cylindrical or cone shape; a second yoke end ( 30 ) having a cylindrical or cone shape; the yoke member having a generally arched shape extending between the first and second yoke ends; a first engine mount ( 36 ) configured to accommodate the first yoke end; a second engine mount ( 40 ) configured to accommodate the second yoke end; wherein the first yoke end ( 28 ) and the second yoke end ( 30 ) are configured to be inserted in the first and second engine mounts ( 36 , 40 ), respectively, and interlocked therein; wherein the first yoke end ( 28 ) is secured to and within the first engine mount ( 36 ) by a fastener preventing relative sliding of the first yoke end with the first engine mount; wherein the second yoke end ( 30 ) is slidably free within the second engine mount ( 40 ); at least one res