Universal payload manipulation tool with telescoping ring segment

We claim: 1. A universal tool for rotational manipulation of a payload, said tool comprising: a lifting beam; and first and second telescoping cradle assemblies positioned fore and aft on the lifting beam, each said telescoping cradle assembly comprising: a telescoping cradle rotationally coupled to the lifting beam; a lower ring segment captured in the telescoping cradle; a payload mount on the lower ring segment; and a detachable upper ring segment; wherein in a first state a complete ring formed by attachment of the upper ring segment to the lower ring segment rotates to different positions over a first range of rotation of 360 degrees; wherein in a second state the telescoping cradle rotates and the lower ring segment rotates and extends from the telescoping cradle over a combined range of rotation. 2. The universal tool of claim 1 , wherein a width of the universal tool at 0 degrees rotation of both the telescoping cradle and lower ring segment is less than a specified value, wherein at the specified width neither a second range of rotation of the telescoping cradle or a third range of rotation of the lower ring segment is itself sufficient to reach a minimum required angle of rotation to support unloading the payload from the universal tool. 3. The universal tool of claim 2 , wherein the second range of rotation is approximately +/−38 degrees, the third range of rotation is approximately +/−22 degrees and the combined range of rotation is approximately +/−60 degrees. 4. The universal tool of claim 2 , wherein the second range of rotation is approximately +/−50 degrees, the third range of rotation is approximately +/−40 degrees and the combined range of rotation is approximately +/−90 degrees. 5. The universal tool of claim 1 , wherein the payload comprises a store to be mounted under a wing of an aircraft, wherein said second state the telescoping cradle and lower ring segment rotate and extend to a specified angle to load the store under the wing. 6. The universal tool of claim 1 , further comprising: a telescoping cradle locking mechanism for locking the telescoping cradle to prevent rotation; and a lower ring segment locking mechanism for locking the lower ring segment to the telescoping cradle, wherein in the first state said lower ring segment locking mechanism is disengaged, wherein once the telescoping cradle and lower ring segment are rotated and extended to a specified angle the telescoping cradle locking mechanism and lower ring segment locking mechanism are engaged. 7. The universal tool of claim 1 , further comprising: a first drive mechanism configured to rotate the complete ring and payload mount over the first range of rotation 360 degrees in the first state; a second drive mechanism configured to rotate the telescoping cradle over a second range of rotation in the second state; and a third drive mechanisms configured to rotate and extend the lower ring segment with respect to the telescoping cradle over a third range of rotation, wherein said second and third drive mechanisms together rotate the lower ring segment and the payload mount over the combined range of rotation that exceeds each of the second and third ranges of rotation. 8. The universal tool of claim 7 , wherein said first and third drive mechanisms are a common drive mechanism. 9. A universal tool for rotational manipulation of a payload, said tool comprising: a lifting beam; and first and second telescoping cradle assemblies positioned fore and aft on the lifting beam, each said telescoping cradle assembly comprising: a lower cradle mounted on the lifting beam; a telescoping cradle rotationally captured in the lower cradle, said telescoping cradle forming a portion of a circular ring; a telescoping cradle locking mechanism for locking the telescoping cradle to the lower cradle; a lower ring segment rotationally captured in the telescoping cradle; a lower ring segment locking mechanism for locking the lower ring segment to the telescoping cradle; a payload mount positioned on the lower ring segment for attaching the payload; a detachable upper ring segment that attaches to the lower ring segment to form a complete ring; a first drive mechanism configured to rotate the complete ring and payload mount over a first range of rotation of 360 degrees when the upper ring segment is attached and the ring locking mechanism is disengaged; a second drive mechanism configured to rotate the telescoping cradle over a second range of rotation when the upper ring segment is detached, the telescoping cradle locking mechanism is disengaged and the lower ring segment locking mechanism is engaged; and a third drive mechanism configured to rotate and extend the lower ring segment with respect to the telescoping cradle over a third range of rotation when the upper ring segment is detached, the telescoping cradle locking mechanism is engaged and the lower ring segment locking mechanism is disengaged, wherein said second and third drive mechanisms together rotate the lower ring segment and the payload mount over a combined range of rotation that exceeds each of the second and third ranges of rotation. 10. The universal tool of claim 9 , wherein a width of the universal tool at 0 degrees rotation of both the telescoping cradle and lower ring segment is less than a specified value, wherein at the specified width neither the second range of rotation of the telescoping cradle or the third range of rotation of the lower ring segment is itself sufficient to reach a minimum required angle of rotation to support unloading the payload from the universal tool. 11. The universal tool of claim 10 , wherein at a maximum rotation of the telescoping cradle over the second range of rotation, a trailing edge of the telescoping cradle clears an outer edge of the lower cradle. 12. A method of using a universal tool for rotational manipulation of a payload, the method comprising: mounting a payload onto a universal tool comprising first and second telescoping cradle assemblies positioned fore and aft of a lifting beam, each said telescoping cradle assembly comprising a lower ring segment captured in a telescoping cradle rotationally coupled to the lift beam and a payload mount on the lower ring segment; to perform a task on the payload, attaching an upper ring segment to the lower ring segment to form a complete ring; and rotating the payload to a desired position over a range of rotation of 360 degrees; and to unload the payload from the universal tool, detaching the upper ring segment; and rotating the telescoping cradle and rotating and extending the lower ring segment from the telescoping cradle to a specified angle over a combined range of rotation. 13. The method of claim 12 , wherein a width of the universal tool at 0 degrees rotation of both the telescoping cradle and lower ring segment is less than a specified value, wherein at the specified width neither the second range of rotation of the telescoping cradle or the third range of rotation of the lower ring segment is itself sufficient to reach a minimum required angle of rotation for the combined range of rotation. 14. The method of claim 12 , further comprising: to perform the task on the payload, disengaging a lower ring segment locking mechanism; and to unload the payload, once the telescoping cradle and lower ring segment are rotated and segmented to a specified angle engaging a telescoping cradle locking mechanism and the lower ring segment locking. 15. The method of claim 12 , further comprising: to perform the task on the payload, using a first drive mech