Actuation system for a lift assisting device and lined track rollers used therein

What is claimed is: 1. An actuation system for deploying and retracting a lift assisting device of a leading edge of a wing of an aircraft, the actuation system comprising: a track pivotally coupled to the lift assisting device, the track having first and second outer surfaces and side surfaces; a shaft rotationally coupled within the wing of the aircraft and operable, in response to flight control signals, to deploy or retract the lift assisting device; means for actuating the lift assisting device, coupled to the shaft, between a retracted position to a deployed position along an arcuate path; and a plurality of track roller bearings rotatably contacting the first and second outer surfaces of the track to guide the track along the arcuate path, wherein each of the track roller bearings comprises an inner ring having an outer bearing surface and an outer ring having an inner bearing surface, the inner ring being disposed at least partially in the outer ring and at least one of the track roller bearings has a self lubricating liner secured to at least one of the outer bearing surface and the inner bearing surface, to carry loads transmitted to the track roller bearing from the track. 2. The actuation system of claim 1 , wherein at least one of the plurality of track roller bearings is in rotational contact with an upper surface of the track and at least one of the track roller bearings is in rotational contact with a lower surface of the track. 3. The actuation system of claim 1 , wherein the all of the plurality of track roller bearings have one of the self lubricating liners secured to at least one of the outer bearing surface and the inner bearing surface. 4. The actuation system of claim 1 , wherein the means for actuating is comprised of: an actuator arm coupled to the track; and an actuator lever coupled to the shaft and to the actuator arm; wherein when the shaft rotates in a first direction the actuator lever drives the actuator arm to move the track and the lift assisting device from the retracted to the deployed position along the arcuate path, and when the shaft rotates in a second direction the actuator lever drives the actuator arm to move the track and the lift assisting device from the deployed position to the retracted position along the arcuate path. 5. The actuation system of claim 1 , wherein the actuation system further includes a mounting web enclosing at least a portion of the track and wherein the plurality of track roller bearings are coupled to the mounting web. 6. The actuation system of claim 5 , wherein the track roller bearings are coupled to the mounting web with opposing bushings, a mounting pin and a nut. 7. The actuation system of claim 6 , wherein the opposing bushings are comprised of eccentric bushings and the nut is comprised of a castellated nut to allow adjustment to the track at fit-up. 8. The actuation system of claim 1 further comprising a plurality of side roller bearings rotatably contacting at least one side of the track to guide the track along the arcuate path. 9. The actuation system of claim 8 wherein each of the plurality of the side roller bearings comprise an inner ring having an outer bearing surface and an outer ring having an inner bearing surface, the inner ring being disposed at least partially in the outer ring at least one of the side roller bearings has one of the self lubricating liners secured to at least one of the outer bearing surface and the inner bearing surface. 10. The actuation system of claim 1 , wherein the at least one track roller bearing having the self lubricating liner has no balls, no needles and no cage. 11. The actuation system of claim 1 , wherein the securing of the liner comprises at least one of by bonding and by an adhesive.