Counterbalance assemblies for upwardly opening aircraft doors and aircraft including same

What is claimed is: 1. A counterbalance assembly to counterbalance weight of an upwardly opening aircraft door which is movable between closed and opened positions so as to close and open an opening associated with an aircraft fuselage, respectively, wherein the counterbalance assembly comprises: a rotatable cable reel which includes a length of lifting cable having an end attached to the aircraft door; a torsion bar supported by the aircraft fuselage having proximal and distal ends constrained against rotational movement about an elongate axis of the torsion bar; a gear reduction system operatively connected to the cable reel so as to receive a rotational input from the cable reel in response to lifting or closing movement of the door and generate a lesser rotational output; and a linkage system operatively interconnecting the gear reduction system and the proximal end of the torsion bar, wherein the distal end of the torsion bar includes a notch which is received within a support sleeve fixed to the aircraft fuselage in a male/female connection so as to restrain the torsion bar against rotational movement about the elongate axis thereof, and wherein the support sleeve is connected to the distal end of the torsion bar so as to allow longitudinal movement between the support sleeve and the distal end of the torsion bar along the longitudinal axis thereof, and wherein the torsion bar is in a state of increased torque thereby generating high torsional spring force when the door is in the closed position thereof such that rotation of the cable reel when the door is lifted into the opened position thereof drives the gear reduction system and moves the linkage system to responsively cause the torsional spring force generated by the torsion bar to unload thereby counterbalancing the door weight. 2. The counterbalance assembly as in claim 1 , wherein the cable reel comprises a pinion gear; the linkage system comprises a sector gear, and the reduction gear system includes a pair of reduction gears intermeshed between the pinion gear and the sector gear so as to receive the rotational input from the cable reel and generate the lesser rotational output. 3. The counterbalance assembly as in claim 2 , wherein the linkage system comprises a guided lever link, a driving lever link and a coupler linkage rod interconnecting the guided lever and driving lever links, and wherein the guided lever link is fixed to the sector gear and the driving lever link is fixed to the proximal end of the torsion bar such that the lesser rotational output of the reduction gear system is transferred to the proximal end of the torsion bar. 4. The counterbalance assembly as in claim 2 , wherein the linkage system comprises a guided lever link, a driving lever link and a coupler linkage rod interconnecting the guided lever and driving lever links, and wherein the guided lever link is fixed to the sector gear and the driving lever link is fixed to the proximal end of the torsion bar such that the lesser rotational output of the gear reduction system is transferred to the proximal end of the torsion bar. 5. The counterbalance assembly as in claim 1 , wherein the cable reel comprises a pinion gear; the linkage system comprises a sector gear, and the reduction gear system includes a pair of reduction gears intermeshed between the pinion gear and the sector gear so as to receive the rotational input from the cable reel and generate the lesser rotational output. 6. The counterbalance assembly as in claim 1 , wherein the linkage system comprises a guided lever link, a driving lever link and a coupler linkage rod which interconnects the guided lever and driving lever links. 7. The counterbalance assembly as in claim 6 , wherein the linkage system comprises a sector gear operatively connected to the gear reduction system and fixed to the guided lever link. 8. The counterbalance assembly as in claim 7 , wherein the cable reel comprises a pinion gear and the reduction gear system comprises a pair of reduction gears intermeshed between the pinion gear and the sector gear so as to receive the rotational input from the cable reel and generate the lesser rotational output. 9. The counterbalance assembly as in claim 7 , wherein the driving lever link is fixed to the proximal end of the torsion bar such that the lesser rotational output of the gear reduction system is transferred to the proximal end of the torsion bar. 10. An aircraft comprising: a fuselage; an opening in the fuselage; an aircraft door which is moveable upwardly relative to the opening in the fuselage between closed and opened positions so as to close and open the opening in the aircraft fuselage, respectively; and a counterbalance assembly to counterbalance the aircraft door when moved between the closed and opened positions thereof, wherein the counterbalance assembly comprises: (i) a rotatable cable reel which includes a length of lifting cable having an end attached to the aircraft door; (ii) a torsion bar supported by the aircraft fuselage having proximal and distal ends constrained against rotational movement about an elongate axis of the torsion bar; (iii) a gear reduction system operatively connected to the cable reel so as to receive a rotational input from the cable reel in response to lifting or closing movement of the door and generate a lesser rotational output; and (iv) a linkage system operatively interconnecting the gear reduction system and the proximal end of the torsion bar, wherein the distal end of the torsion bar includes a notch which is received within a support sleeve fixed to the aircraft fuselage in a male/female connection so as to restrain the torsion bar against rotational movement about the elongate axis thereof, and wherein the support sleeve is connected to the distal end of the torsion bar so as to allow longitudinal movement between the support sleeve and the distal end of the torsion bar along the longitudinal axis thereof, and wherein the torsion bar is in a state of increased torque thereby generating high torsional spring force when the door is in the closed position thereof such that rotation of the cable reel when the door is lifted into the opened position thereof drives the gear reduction system and move the linkage system to responsively cause the torsional spring force generated by the torsion bar to unload thereby counterbalancing the door weight. 11. The aircraft as in claim 10 , wherein the cable reel comprises a pinion gear; the linkage system comprises a sector gear, and the reduction gear system includes a pair of reduction gears intermeshed between the pinion gear and the sector gear so as to receive the rotational input from the cable reel and generate the lesser rotational output. 12. The aircraft as in claim 11 , wherein the linkage system comprises a guided lever link, a driving lever link, and a coupler linkage rod which interconnects the guided lever and driving lever links, and wherein the guided lever link is fixed to the sector gear and the driving lever link is fixed to the proximal end of the torsion bar such that the lesser rotational output of the reduction gear system is transferred to the proximal end of the torsion bar. 13. The aircraft as in claim 10 , wherein the cable reel comprises a pinion gear; the linkage system comprises a sector gear, and the reduction gear system includes a pair of reduction gears intermeshed between the pinion gear and the sector gear so as to receive the rotational input from the cable reel and generate the lesser rotational output. 14. The aircraft as in claim 13 , wherein the