Construction machine with rotor load monitoring

What is claimed is: 1. A machine for road work, the machine comprising: a frame; a drive system including a power source carried by the frame; a milling system driven by the power source, the milling system comprising: a rotor configured to rotate and remove an amount of material from a working area; a drive member coupling the rotor to be driven by the power source; and a sensor configured to measure at least one of a rotational speed or acceleration of the drive member; and a controller configured to, in response to a signal received from the sensor, determine if the rotor has encountered an object capable of damaging the rotor; wherein the controller determines if the rotor has encountered the object capable of damaging the rotor by determining if the rotational speed decreases by at least 10% as compared to a mean drive member speed and the rotational speed then increases by at least 10% as compared to the mean drive member speed within 0.2 seconds or less. 2. The machine of claim 1 , wherein the drive member further includes: a belt; and a tensioner assembly configured to tension the belt, and wherein the tensioner assembly comprises a hydraulic cylinder. 3. The machine of claim 1 , further comprising a second sensor configured to measure a second characteristic of the drive member or the drive system, wherein the second sensor is configured to measure a torque of the drive system. 4. The machine of claim 3 , wherein the controller determines if the rotor has encountered the object capable of damaging the rotor by determining if the torque increases by 50% or more as compared a mean torque. 5. The machine of claim 3 , wherein the controller determines if the rotor has encountered an object capable of damaging the rotor by: when determining if the rotational speed decreases by at least 10% as compared to a mean drive member speed and the rotational speed then increases by at least 10% as compared to the mean drive member speed within 0.2 seconds or less, also determining that the second characteristic reduces by at least 10% as compared to a mean for the second characteristic within a corresponding time frame. 6. The machine of claim 1 , wherein the controller is configured to control the machine to at least one of decouple the milling system from being driven by the power source, activate a first actuator configured to raise the rotor relative to a surface of the working area or activate a second actuator to raise the frame relative to the surface thereby raising the rotor, in response to determining the rotor has encountered the object capable of damaging the rotor. 7. A method of monitoring a rotor of a working machine, the method comprising: providing a drive member coupling the rotor to be driven by a drive system of the working machine; sensing a characteristic comprising a rotational speed of the drive member; and determining if the rotor has encountered an object capable of damaging the rotor based upon the sensing the characteristic and by determining if the rotational speed of the drive member decreases by at least 10% as compared to a mean drive member speed and the rotational speed of the drive member then increases by at least 10% as compared to the mean drive member speed within 0.2 seconds or less. 8. The method of claim 7 , further comprising automatically controlling the machine by at least one of decoupling the drive member from being driven by the drive system, activating a first actuator configured to raise the rotor relative to a surface of a working area or activating a second actuator to raise a frame relative to the surface thereby raising the rotor, in response to determining the rotor has encountered the object capable of damaging the rotor. 9. The method of claim 7 , further comprising sensing a second characteristic of the drive system that is a torque of the drive system, and the determining the rotor has encountered the object capable of damaging the rotor is based upon the sensing the characteristic in combination with the sensing torque of the drive system. 10. A system comprising: a frame; a drive system including a power source; a milling system driven by the power source, the milling system comprising: a rotor configured to rotate and remove an amount of material from a working area; a belt configured to couple the rotor to be driven by the power source; a belt pulley configured to retain the belt; and a sensor configured to measure a rotational speed of the belt pulley; a second sensor configured to measure a torque of the drive system; and a controller configured to, in response to a signal received from the sensor and a signal received from the second sensor during a corresponding time frame, determine if the rotor has encountered an object capable of damaging the rotor; wherein the controller determines the rotor has encountered an object capable of damaging the rotor if determining that the rotational speed of the belt pulley decreases by at least 10% as compared to a mean belt pulley speed and the torque of the drive system increases by 50% or more as compared to a mean torque of the drive system. 11. The system of claim 10 , wherein the controller determines the rotor has encountered an object capable of damaging the rotor if the rotational speed of the belt pulley decreases by 10% or more from the mean belt pulley speed and the torque of the drive system increases by 50% or more as compared with the mean torque of the drive system in combination with any one of: the rotational speed of the belt pulley increases by 10% or more from the mean belt pulley speed or the torque of the drive system decreases by 10% or more from the mean torque of the drive system. 12. The system of claim 10 , wherein the controller determines if the rotor has encountered the object capable of damaging the rotor by determining if the torque increases by 50% or more as compared with the mean torque and the rotational speed of the belt pulley decreases by 10% or more from the mean belt pulley speed within 0.2 seconds or less.