Lock mechanism for rotary component control

What is claimed is: 1. A lock mechanism for controlling a rotating component, comprising: an outer shaft attachable to a stationary component, the outer shaft having a slotted ring defining capture slots and an interior annular space; a control ring having a first end disposed in the annular space; an inner shaft attachable to a rotating component, the rotating component configured to rotate relative to the stationary component, and the inner shaft engaged with a second end of the control ring; a first collar rotatably disposed around the slotted ring, the first collar having a plurality of release recesses; and a plurality of first bearings respectively retained within the capture slots beneath the first collar, wherein: in a first rotational position of the first collar, the plurality of release recesses align with the capture slots to rotationally disengage the rotating and stationary components; and in a second rotational position of the first collar, the plurality of release recesses misalign with the capture slots to rotationally engage the rotating and stationary components. 2. The lock mechanism of claim 1 , wherein the stationary component is a stationary seat assembly component and the rotating component is a pivoting seat assembly component. 3. The lock mechanism of claim 1 , wherein in the first rotational position of the first collar, the first bearings are partially offset from the capture slots toward the control ring; and, in the second rotational position of the first collar, the first bearings can partially offset from the capture slots toward the first collar. 4. The lock mechanism of claim 1 , wherein the outer shaft comprises a central shaft, and the interior annular space is defined between the central shaft and the slotted ring. 5. The lock mechanism of claim 4 , wherein the central shaft has a longitudinal end that extends beyond the slotted ring and is received by the inner shaft. 6. The lock mechanism of claim 1 , further comprising a second collar rotatably disposed around an end of the inner shaft, wherein: in a first rotational position of the second collar, the inner shaft is non-rotationally engaged with the second end of the control ring; and in a second rotational position of the second collar, the inner shaft is rotationally disengaged from the second end of the control ring. 7. The lock mechanism of claim 6 , further comprising a plurality of second bearings respectively retained within capture holes in the end of the inner shaft beneath the second collar, wherein, in the first rotational position of the second collar, the second bearings are partially offset from the capture holes toward the control ring; and, in the second rotational position of the second collar, the second bearings can partially offset from the capture holes toward the second collar. 8. The lock mechanism of claim 6 , further comprising a manual control device engaging the first collar and operable to move the first collar between a first rotational position and a second rotational position thereof. 9. The lock mechanism of claim 6 , further comprising an automatic release device engaging the second collar and operable to move the second collar between a first rotational position and a second rotational position thereof. 10. The lock mechanism of claim 9 , wherein the automatic release device comprises an inertial mass on a trigger arm movable by inertial forces to move the second collar to the second rotational position. 11. The lock mechanism of claim 1 , further comprising an arm pivotally-mounted on the inner shaft. 12. The lock mechanism of claim 1 , wherein the control ring has helical grooves in which the first bearings are movable against the forces of springs, when the first collar is in the first rotational position, by a force to overcome the springs thereby permitting the rotating component to rotate relative to the stationary component. 13. A passenger seat assembly, comprising: a stationary frame member; a rotating component configured to rotate relative to the stationary frame member; and a lock mechanism for controlling rotation of the rotating component relative to the stationary frame member, the lock mechanism comprising: an outer shaft attached to the stationary frame member, the outer shaft having a slotted ring defining capture slots and an interior annular space; a control ring having a first end disposed in the annular space; an inner shaft attached to the rotating component, the inner shaft engaged with a second end of the control ring; a first collar rotatably disposed around the slotted ring, the first collar having a plurality of release recesses; and a plurality of first bearings respectively retained within the capture slots beneath the first collar, wherein: in a first rotational position of the first collar, the plurality of release recesses align with the capture slots to rotationally disengage the stationary frame member and rotating component; and in a second rotational position of the first collar, the plurality of release recesses misalign with the capture slots to rotationally engage the stationary frame member and the rotating component. 14. The passenger seat assembly of claim 13 , wherein the rotating component is a backrest, a leg rest, or an armrest. 15. The passenger seat assembly of claim 13 , wherein in the first rotational position of the first collar, the first bearings are partially offset from the capture slots toward the control ring; and, in the second rotational position of the first collar, the first bearings can partially offset from the capture slots toward the first collar. 16. The passenger seat assembly of claim 13 , wherein the outer shaft comprises a central shaft, and the interior annular space is defined between the central shaft and the slotted ring. 17. The passenger seat assembly of claim 16 , wherein the central shaft has a longitudinal end that extends beyond the slotted ring and is received by the inner shaft. 18. The passenger seat assembly of claim 13 , further comprising a second collar rotatably disposed around an end of the inner shaft, wherein: in a first rotational position of the second collar, the inner shaft is non-rotationally engaged with the second end of the control ring; and in a second rotational position of the second collar, the inner shaft is rotationally disengaged from the second end of the control ring. 19. The passenger seat assembly of claim 13 , further comprising a plurality of second bearings respectively retained within capture holes in the end of the inner shaft beneath the second collar, wherein, in the first rotational position of the second collar, the second bearings are partially offset from the capture holes toward the control ring; and, in the second rotational position of the second collar, the second bearings can partially offset from the capture holes toward the second collar. 20. The passenger seat assembly of claim 13 , further comprising a manual control device engaging the first collar and operable to move the first collar between first rotational position and second rotational position thereof.