Conveyor system, belt, and method using accelerometers

What is claimed is: 1. A conveyor system comprising: a conveyor including a conveyor belt conveying articles in a conveying direction along a conveying path; an accelerometer embedded in the conveyor belt to make measurements of accelerations of the conveyor belt in multiple directions including the conveying direction; a controller processing the measurements; a damper controlled by the controller to damp accelerations of the conveyor belt in the conveying direction in response to the measurements of the acceleration of the conveyor belt in the conveying direction. 2. A conveyor system as in claim 1 wherein the accelerometer is a two-axis accelerometer. 3. A conveyor system as in claim 1 wherein the accelerometer is a three-axis accelerometer. 4. A conveyor system as in claim 1 wherein the conveyor belt is a modular plastic conveyor belt. 5. A conveyor system as in claim 1 further comprising a transmitter embedded in the conveyor belt and a receiver external to the conveyor belt, wherein the transmitter transmits the measurements of accelerations made by the accelerometer to the receiver. 6. A conveyor system as in claim 1 wherein the damper is a linear damper applying a force against the conveyor belt to damp accelerations of the conveyor belt in the conveying direction. 7. A conveyor system as in claim 6 comprising a carryway supporting the conveyor belt and wherein the linear damper includes a movable pad facing the conveyor belt opposite the carryway, wherein the pad moves to clamp the conveyor belt against the carryway to damp accelerations in the conveying direction. 8. A conveyor system as in claim 6 wherein the conveyor belt includes magnetically attractive material, the conveyor system further comprising a carryway supporting the conveyor belt, and wherein the linear damper includes a magnet operated by the controller to attract the conveyor belt against the carryway to damp accelerations of the conveyor belt in the conveying direction. 9. A conveyor system as in claim 6 further comprising a carryway supporting the conveyor belt, wherein the carryway includes magnetically attractive material, and wherein the linear damper includes one or more magnets in the conveyor belt operated by the controller to attract the carryway against the conveyor belt to damp accelerations in the conveying direction. 10. A conveyor system as in claim 1 comprising a conveyor drive system supporting and driving the conveyor belt, wherein the drive system includes drive and idle shafts and wherein the damper is a rotational damper operative with at least one of the drive and idle shafts to damp accelerations of the conveyor belt in the conveying direction. 11. A conveyor system as in claim 1 wherein at least a portion of the conveyor belt is electrically conductive and wherein the damper includes a magnetic field generator that induces eddy currents in the electrically conductive portion of the conveyor belt to damp accelerations of the conveyor belt in the conveying direction. 12. A conveyor system as in claim 1 wherein at least a portion of the conveyor belt is made of a magnetically attractive material and wherein the damper includes a magnetic field generator that creates a magnetic field that opposes the motion of the conveyor belt in the conveying direction to damp accelerations of the conveyor belt in the conveying direction. 13. A conveyor system as in claim 1 wherein the damper includes a plurality of intermediate drives drivingly engaged with the conveyor belt at spaced apart positions along the conveyor. 14. A conveyor system as in claim 1 comprising a drive for controlling the speed of the conveyor belt in the conveying direction, wherein the controller adjusts the speed of the conveyor belt in response to the measurements of acceleration to damp accelerations of the conveyor belt in the conveying direction. 15. A conveyor system as in claim 1 wherein the damper is a rotational damper including an engaging element engaging the conveyor belt to convert the linear motion of the conveyor belt in the conveying direction to rotational motion. 16. A conveyor system as in claim 1 comprising a plurality of the accelerometers embedded in the conveyor belt at spaced apart positions, each making measurements of the local acceleration of the conveyor belt in multiple directions including the conveying direction. 17. A conveyor system as in claim 16 comprising a plurality of dampers disposed at fixed locations along the length of the conveying path in individual zones to locally damp accelerations in the speed of the conveyor belt in response to the measurements of local acceleration by one or more of the accelerometers passing through the zone. 18. A conveyor system as in claim 17 further comprising: a plurality of receivers disposed at fixed locations along the conveying path, wherein each of the receivers resides in an associated one of the zones to receive acceleration measurements from accelerometers passing through the associated zone; a plurality of controllers coupled to the receivers to receive the measurements of local acceleration made by the accelerometers passing through each of the zones and coupled to the dampers to control the damping of the conveyor belt in each zone. 19. A conveyor system as in claim 18 wherein, as one of the accelerometers passes from a first one of the zones into an adjacent second one of the zones, the at least one controller switches the accelerometer's measurement of local acceleration from association with the first zone to association with the second zone. 20. A method for measuring the acceleration of a conveyor belt, comprising: driving a conveyor belt having at least one embedded accelerometer in a conveying direction along a conveyor carryway; making measurements of the acceleration of the conveyor belt in multiple directions including the conveying direction with the at least one embedded accelerometer; controlling the motion of the conveyor belt in the conveying direction in response to the measurements of the acceleration. 21. The method of claim 20 wherein making measurements of the acceleration comprises making the measurements at a plurality of embedded-accelerometer positions along the length of the conveyor belt. 22. The method of claim 20 wherein controlling the motion of the conveyor belt comprises damping the acceleration of the conveyor belt in the conveying direction in response to the measurements of the acceleration. 23. The method of claim 22 further comprising damping the acceleration of the conveyor belt in the conveying direction at a plurality of damping positions along the length of the conveyor. 24. The method of claim 20 wherein controlling the motion of the conveyor belt comprises adjusting the speed of the conveyor belt in response to the measurements of the acceleration in the conveying direction. 25. The method of claim 20 wherein controlling the motion of the conveyor belt comprises stopping the conveyor belt whenever the measurements of the acceleration exceed a predetermined level. 26. The method of claim 20 further comprising detecting the impact of an article dropped onto the conveyor belt from the measurements of acceleration. 27. The method of claim 20 wherein the conveyor belt is driven through a processing device and further comprising analyzing a failure trend of the processing device from