Railcar door operating systems and methods with capstan drives

The invention claimed is: 1. A longitudinal door system, comprising: one or more longitudinal doors for a railcar; a longitudinal operating beam coupled to the one or more longitudinal doors via one or more struts, wherein a translation of the longitudinal operating beam is coupled to an opening and closing of the one or more longitudinal doors; and a gearbox coupled to the longitudinal operating beam and a first capstan receptacle, the gearbox operable to translate a rotational movement of the first capstan receptacle to a linear movement of the longitudinal operating beam, wherein the gearbox is coupled to the longitudinal operating beam via: a rack and pinion system; and a ratchet configured to control the movement or speed of the longitudinal operating beam in both directions of travel of the longitudinal operating beam. 2. The longitudinal door system of claim 1 , wherein the gearbox is coupled to the longitudinal operating beam via: a threaded shaft coupled to the rotation provided by the first capstan receptacle; and a nut disposed on the threaded shaft and coupled to the longitudinal operating beam, wherein the nut is configured to move along the threaded shaft as the threaded shaft rotates and causes movement of the longitudinal operating beam in the direction of the movement of the nut. 3. The longitudinal door system of claim 2 , further comprising a re-engaging spring disposed at a first end of the threaded shaft, wherein the re-engaging spring provides a restorative force to the nut in a first direction when the threaded shaft does not rotate or rotates in a first direction. 4. The longitudinal door system of claim 3 , further comprising a second re-engaging spring disposed at a second end of the threaded shaft, wherein the re-engaging spring provides a restorative force to the nut in a second direction when the threaded shaft does not rotate or rotates in a second direction. 5. The longitudinal door system of claim 1 , further comprising a shearing pin disposed between the gearbox and the first capstan receptacle, wherein the shear pin is configured to shear and reduce or eliminate the coupling between the gearbox and the first capstan receptable in response to a torque exceeding a predetermined value. 6. The longitudinal door system of claim 1 , further comprising a torque limiter disposed between the gearbox and the first capstan receptacle, wherein the torque limiter limits the torque translated from the first capstan receptacle to the gearbox. 7. The longitudinal door system of claim 1 , wherein the gearbox is coupled to the longitudinal operating beam via one of a torque limiter, a continuously variable transmission, a centrifugal clutch, and a torque converter. 8. The longitudinal door system of claim 1 , further comprising a second capstan receptacle, wherein the first capstan receptacle and the second capstan receptacle are coupled differently via the gearbox to the longitudinal operating beam. 9. The longitudinal door system of claim 1 , further comprising a spring or damper at each end of the longitudinal operating beam, the spring or damper configured to provide a restorative force to the longitudinal operating beam moving in the direction towards the spring or dampening mechanism. 10. The longitudinal door system of claim 1 , further comprising a torsional dampener coupled between the gearbox and the first capstan receptacle configured to dampen variations of torque received from a capstan drive. 11. The longitudinal door system of claim 1 , wherein the gearbox is slidably coupled to the longitudinal operating beam. 12. The longitudinal door system of claim 1 , wherein the gearbox is coupled to the longitudinal operating beam via a rod and clevis, wherein an end of the rod comprises a rod housing and the clevis is partially disposed within the rod housing and the rod housing is configured to reduce torsional flex imparted to the longitudinal operating beam. 13. The longitudinal door system of claim 1 , further comprising: a second capstan receptacle coupled to the gearbox, wherein the first capstan receptacle extends toward a first side of the railcar, and the second capstan receptacle extends toward a second side of the railcar; and a security system comprising a first security seal for the first capstan receptacle and a second security seal for the second capstan receptacle, wherein the first and second security seals are configured to indicate whether the first and second capstan receptacles have been accessed since installation of the first or second security seal. 14. The longitudinal door system of claim 13 , wherein: the first capstan receptacle is coupled to a first cover through which the first security seal is secured, and a first hood disposed over the first capstan receptacle; the second capstan receptacle is coupled to a second cover through which the second security seal is secured, and a second hood disposed over the second capstan receptacle; and wherein the first hood is coupled to the second hood such that movement of the first hood results in movement of the second hood. 15. The longitudinal door system of claim 14 , wherein the longitudinal operating beam is coupled to the first and second capstan receptacles via a control rod extending along a direction of movement of the longitudinal operating beam. 16. The longitudinal door system of claim 15 , wherein the first security seal cannot be attached to the first cover and the first capstan receptacle unless the first hood and the first cover are in a closed position. 17. The longitudinal door system of claim 16 , wherein the first hood cannot be closed when the longitudinal operating beam and the longitudinal doors are in an open position. 18. The longitudinal door system of claim 16 , wherein the first security seal and the second security seal provide a visual indication when the one or more longitudinal doors of the railcar are not completely closed. 19. The longitudinal door system of claim 18 , wherein when the first hood is open, the second security seal is not visible.