Vibration control systems and methods for industrial lift trucks

We claim: 1. A system for mitigating torsional vibrations about a Z-axis of a lift truck, the system comprising: a tractor unit; a mast mounted relative to the tractor unit, the mast including a fixed base and a vertically extendable mast section; a vertically movable platform attached to the extendable mast section, the platform being vertically movable with the extendable mast section between an upper position and a lower position; a first sensor at or near a top of the mast, the first sensor to measure yaw about the Z-axis at or near the top of the mast; a corrective yaw input mechanism, the corrective yaw input mechanism to induce a counter moment at or near the fixed base when the measured yaw about the Z-axis at or near the top of the mast exceeds a predetermined value, the induced counter moment to damp the measured yaw about the Z-axis at or near the top of the mast. 2. The system according to claim 1 : further including a second sensor at or near the fixed base, the second sensor to measure yaw about the Z-axis at or near the fixed base. 3. The system according to claim 2 : further including a controller to compare the measured yaw about the Z-axis at or near the top of the mast to the measured yaw about the Z-axis at or near the fixed base. 4. The system according to claim 1 : further including a controller to control the corrective yaw input mechanism, the controller to instruct the corrective yaw input mechanism as to the magnitude of the induced counter moment. 5. The system according to claim 4 : wherein the first sensor at or near a top of the mast measures a yaw rate about the Z-axis at or near the top of the mast. 6. The system according to claim 5 : wherein the second sensor at or near the fixed base measures a yaw rate about the Z-axis at or near the fixed base. 7. The system according to claim 6 : wherein the controller compares the measured yaw rate about the Z-axis at or near the top of the mast to the measured yaw rate about the Z-axis at or near the fixed base. 8. The system according to claim 1 : wherein the first sensor at or near the top of the mast measures the yaw about the Z-axis at or near the top of the mast when the vertically movable platform is in the upper position. 9. The system according to claim 4 : wherein the corrective yaw input mechanism comprises a steering wheel, the steering wheel to receive a steering input from the controller to adjust a steering angle without input from a lift truck operator, the steering input from the controller to induce the counter moment to damp the measured yaw about the Z-axis at or near the top of the mast. 10. The system according to claim 1 : wherein the corrective yaw input mechanism comprises an actuator coupled to a motor carriage, the actuator being extendable from a first position to an extended position, the actuator to extend a tractor frame from a first tractor frame position to a second tractor frame position, thereby to create a yaw moment to damp torsional vibrations at or near the top of the mast. 11. The system according to claim 1 : wherein the corrective yaw input mechanism comprises a load wheel including a brake, the brake being applied to create a yaw moment to damp torsional vibrations at or near the top of the mast. 12. The system according to claim 1 : wherein the tractor unit includes a right load leg and a left load leg, the right load leg including a right load wheel including a right brake, the left load leg including a left load wheel including a left brake; and a controller to pulse one of the right brake and the left brake, and then the other of the right brake and left brake to create the yaw moment to damp torsional vibrations at or near the top of the mast. 13. A method for mitigating torsional vibrations about a Z-axis of a lift truck, the lift truck including a mast, the method comprising: measuring yaw about the Z-axis at or near a top of the mast; and inducing a counter moment at or near a mast fixed base with a corrective yaw input mechanism when the measured yaw about the Z-axis at or near the top of the mast exceeds a predetermined value, the counter moment to damp the measured yaw about the Z-axis at or near the top of the mast. 14. The method according to claim 13 : wherein the corrective yaw input mechanism comprises a steering wheel and a controller; and further comprising the steps of: providing a steering input to the steering wheel from the controller; adjusting a steering angle without input from a lift truck operator; and the steering input from the controller inducing the counter moment to damp the measured yaw about the Z-axis at or near the top of the mast. 15. The method according to claim 13 : wherein the corrective yaw input mechanism comprises an actuator coupled to a motor carriage; and further comprising the steps of: extending the actuator from a first position to an extended position, the actuator extending a tractor frame from a first tractor frame position to a second tractor frame position, thereby creating the counter moment and damping torsional vibrations at or near the top of the mast. 16. The method according to claim 13 : wherein the corrective yaw input mechanism comprises a load wheel including a brake; and further comprising the steps of: applying the brake to create the counter moment and damping torsional vibrations at or near the top of the mast. 17. A method for mitigating vibrations in a lift truck, the method comprising: monitoring at least one of operator inputs and lift truck parameters; determining if a steering angle is substantially constant; measuring torsional vibrations about the Z-axis in the lift truck; determining if the measured torsional vibrations are at or over a predefined limit; and instructing a corrective yaw input mechanism to generate a corrective yaw input at or near a base of the lift truck, the corrective yaw input for reducing the measured torsional vibrations. 18. The method according to claim 17 : wherein determining if the measured torsional vibrations are at or over a predefined limit includes determining if the measured torsional vibrations are increasing or decreasing.