An elevator variable feel unit for aircraft pilot control. The variable
feel unit has a single cam and a roller unit. The cam attaches by a
spline to the input shaft and input crank of the feel unit. The input
crank, connected to the control column torque tube, turns the shaft and
the cam. A cam follower arm assembly has a roller that causes a cam
follower arm to pivot as the cam is pivoted due to movement of the
control column. Two base feel centering springs between the cam follower
arm and a fixed point to keep the roller on the cam, and provide the base
feel force and a centering function. In a base feel position, the preload
on the base feel spring keeps the variable feel unit in a detent
position. The variable feel spring has a minimum preload and does not add
to the feel at low airspeed. When the control column is moved, the
movement causes an increase in the extension of the base feel springs,
thus increasing the feel forces at the column. The feel at the control
column increases with the amount of column movement. In this base feel
configuration, the variable feel spring does not stretch throughout the
full movement of the control column. As the airspeed increases, the
elevator feel actuator extends to change the configuration of the feel
mechanism in the feel unit, by rotating the variable feel arm up as the
airspeed increases. When the control column is moved at higher airspeed,
it causes an increase in the extension of the variable feel springs, as
well as base feel springs. These two forces increase the feel forces at
the control column. Increased rotation of the variable feel arm further
causes additional extension of the variable feel spring, and thus the
column force.