Actuator assembly

The invention claimed is: 1. A method of reacting torque on an actuator assembly, wherein the actuator assembly comprises a screw shaft having a shaft axis, a drive arrangement pivotally supported about the screw shaft axis for driving the screw shaft, and a rod for connection to a frame, wherein one end of the rod is connected to the drive arrangement at a location off the shaft axis, the rod having a rod axis along which load is experienced resulting from torque on the drive arrangement; the method comprising: using the rod to provide a load path which can react torque on the drive arrangement as a primary function of the rod; and using the rod load path to operate a device which is part of the rod in order to provide a secondary function for the actuator assembly based on the load experienced along the rod load path. 2. The method of reacting torque as claimed in claim 1 , wherein the device provides a secondary function of reducing angular impulses on the actuating assembly. 3. The method of reacting torque as claimed in claim 1 , wherein the device comprises portions that move with respect to each other against a bias. 4. The method of reacting torque as claimed in claim 1 , wherein the method comprises providing a rod with a device comprising a load limiter. 5. The method of reacting torque as claimed in claim 1 , wherein the method of reacting torque includes a secondary function of detecting a performance of the actuator assembly based on load experienced along the rod load path in reaction to torque on the drive arrangement. 6. The method of reacting torque as claimed in claim 5 , wherein the detecting a performance comprises: detecting at least a direction of the load along the rod load path using a load sensor which is provided in the rod load path. 7. The method of reacting torque as claimed in claim 6 , wherein the detecting comprises detecting a direction and magnitude of the load along the rod load path. 8. The method of reacting torque as claimed in claim 6 , wherein load signals from the load sensor are used to compute parameters comprising a fatigue life consumption and/or endurance life consumption of one or more components of the actuator assembly. 9. The method of reacting torque as claimed in claim 6 , wherein the detecting a performance of an actuator assembly comprises: sensing a direction of drive of the screw shaft; and processing information concerning the direction of the load and the direction of drive to determine a first performance status of the actuator assembly when the drive arrangement is operating in a resistive load quadrant and to determine a second performance status of the actuator assembly when the drive arrangement is operating in a load driven quadrant. 10. The method of reacting torque as claimed in claim 9 , wherein a signal is outputted if a second performance status is determined. 11. The method of reacting torque as claimed in claim 5 , wherein the detecting a performance of an actuator assembly comprises: controlling a change in a length of the rod through compaction or stretching of a resilient mechanism when a load along the rod load path exceeds a pre-load of the resilient mechanism; biasing the rod when the pre-load is exceeded in either tension or compression to return it back to an initial length; and detecting activation of the resilient mechanism through the change of length of the rod.