Storage modes for tiltrotor aircraft

What is claimed is: 1. A tiltrotor aircraft having a VTOL flight mode, a forward flight mode and a storage mode, the aircraft comprising: a fuselage; a wing rotatably mounted to the fuselage and having first and second outboard ends, the wing reversibly rotatable between a flight orientation, substantially perpendicular to the fuselage, in the flight modes, and a stowed orientation, substantially parallel to the fuselage, in the storage mode; first and second pylon assemblies respectively positioned proximate the first and second outboard ends of the wing; first and second mast assemblies respectively rotatable relative to the first and second pylon assemblies, the first and second mast assemblies reversibly rotatable between a substantially vertical orientation, in the VTOL flight mode, and a substantially horizontal orientation, in the forward flight mode and the storage mode; and first and second proprotor assemblies respectively rotatable relative to the first and second mast assemblies, the first and second proprotor assemblies each including first, second and third rotor blades and each having a radially extended orientation, in the flight modes, and a stowed orientation, in the storage mode, wherein the first rotor blade of each proprotor assembly is folded beamwise below the wing substantially conforming with the respective pylon assembly and the second and third rotor blades of each proprotor assembly are folded beamwise above the wing substantially conforming with the respective pylon assembly; wherein, the aircraft is configured to counter rotate the proprotor assemblies while the first rotor blade of each proprotor assembly is folded beamwise from the radially extended orientation to the stowed orientation. 2. The aircraft as recited in claim 1 wherein the aircraft is configured to counter rotate the proprotor assemblies approximately 30 degrees while the first rotor blade of each proprotor assembly is folded beamwise from the radially extended orientation to the stowed orientation. 3. The aircraft as recited in claim 1 further comprising first and second tail members mounted to the fuselage, the first and second tail members reversibly rotatable between a dihedral orientation, in the flight modes, and an anhedral orientation, in the storage mode. 4. The aircraft as recited in claim 1 wherein each of the first and second proprotor assemblies further comprises a rotor hub and wherein the rotor blades of each proprotor assembly are respectively hingeably coupled to the rotor hub. 5. The aircraft as recited in claim 1 wherein each of the first and second proprotor assemblies further comprises a plurality of rotor blade actuators operable to reversibly rotate the respective rotor blades between the radially extended orientation and the stowed orientation. 6. The aircraft as recited in claim 1 wherein each of the first and second mast assemblies further comprises a pitch control assembly operable to control a collective pitch of the rotor blades of the respective proprotor assembly. 7. The aircraft as recited in claim 1 wherein each of the first and second pylon assemblies further comprises a conversion actuator operable to reversibly rotate the respective mast assembly between the substantially vertical orientation and the substantially horizontal orientation. 8. A tiltrotor aircraft having a VTOL flight mode, a forward flight mode and a storage mode, the aircraft comprising: a fuselage; a wing rotatably mounted to the fuselage and having first and second outboard ends, the wing reversibly rotatable between a flight orientation, substantially perpendicular to the fuselage, in the flight modes, and a stowed orientation, substantially parallel to the fuselage, in the storage mode; first and second pylon assemblies respectively positioned proximate the first and second outboard ends of the wing; first and second mast assemblies respectively rotatable relative to the first and second pylon assemblies, the first and second mast assemblies reversibly rotatable between a substantially vertical orientation, in the VTOL flight mode, and a substantially horizontal orientation, in the forward flight mode and the storage mode; and first and second proprotor assemblies respectively rotatable relative to the first and second mast assemblies, the first and second proprotor assemblies each including first, second and third rotor blades and each having a radially extended orientation, in the flight modes, and a stowed orientation, in the storage mode, wherein the first rotor blade of each proprotor assembly is folded beamwise below the wing substantially conforming with the respective pylon assembly and the second and third rotor blades of each proprotor assembly are folded beamwise above the wing substantially conforming with the respective pylon assembly; wherein, the aircraft is configured to fold the first rotor blade of each proprotor assembly beamwise from the radially extended orientation to the stowed orientation while the wing is being rotated from the flight orientation, substantially perpendicular to the fuselage, to the stowed orientation, substantially parallel to the fuselage. 9. The aircraft as recited in claim 8 wherein the aircraft is configured to fold the second and third rotor blades of each proprotor assembly beamwise from radially extended orientations to stowed orientations while the wing is being rotated from the flight orientation, substantially perpendicular to the fuselage, to the stowed orientation, substantially parallel to the fuselage. 10. The aircraft as recited in claim 8 further comprising first and second tail members mounted to the fuselage, the first and second tail members reversibly rotatable between a dihedral orientation, in the flight modes, and an anhedral orientation, in the storage mode. 11. The aircraft as recited in claim 8 wherein the first proprotor assembly rotates in phase with the second proprotor assembly. 12. The aircraft as recited in claim 8 wherein the first and second proprotor assemblies have matched counter rotation. 13. The aircraft as recited in claim 8 wherein each of the first and second proprotor assemblies further comprises a rotor hub and wherein the rotor blades of each proprotor assembly are respectively hingeably coupled to the rotor hub. 14. The aircraft as recited in claim 8 wherein each of the first and second mast assemblies further comprises a pitch control assembly operable to control a collective pitch of the rotor blades of the respective proprotor assembly. 15. A tiltrotor aircraft having a VTOL flight mode, a forward flight mode and a storage mode, the aircraft comprising: a fuselage; a wing rotatably mounted to the fuselage and having first and second outboard ends, the wing reversibly rotatable between a flight orientation, substantially perpendicular to the fuselage, in the flight modes, and a stowed orientation, substantially parallel to the fuselage, in the storage mode; first and second pylon assemblies respectively positioned proximate the first and second outboard ends of the wing; first and second mast assemblies respectively rotatable relative to the first and second pylon assemblies, the first and second mast assemblies reversibly rotatable between a substantially vertical orientation, in the VTOL flight mode, and a substantially horizontal orientation, in the forward flight mode and the storage mode; and first and second proprotor assemblies respectively rotatable relative to the first and second mast assemblies, the first and second proprotor assemblies each including first, second and third rotor blades and each having