Forage harvester comprising a monitoring mechanism for shear bar and cutting drum

1 . A forage harvester comprising a frame; a cutting arrangement including a cutting drum that is rotatable about a rotation axis with respect to the frame, and a shear bar holder configured to receive a shear bar attached thereto; and a plurality of displacement mechanisms, each displacement mechanism including an actuator for displacing the shear bar with respect to the cutting drum and the frame, at least one of the displacement mechanisms include a sensor arrangement to measure one or more values representative of a force exerted on the shear bar and the shear bar holder when the cutting drum is rotating and cutting crops supplied to an area between the cutting drum and the shear bar. 2 . The harvester according to claim 1 , wherein the sensor arrangement comprises a force transducer configured to measure a force exerted by the actuator on the frame of the harvester. 3 . The harvester according to claim 2 , wherein the actuator is mounted between a first location on the frame and a second location on the shear bar holder or on a structure that is rigidly attached to or uniform with the shear bar holder and wherein the force transducer is mounted in the first location, between the actuator and the frame. 4 . The harvester according to claim 3 , wherein each displacement mechanism includes a pivotable adjustment arm and wherein the actuator actuates a pivoting motion of the adjustment arm about an axis that is substantially parallel to the rotation axis of the cutting drum, the shear bar holder being attached to a lower portion of the adjustment arm, the actuator being pivotably connected to an upper portion of the adjustment arm. 5 . The harvester according to claim 4 , wherein the actuator is a threaded spindle that is rotatable about its central axis, wherein said rotation is driven by a motor mounted on the frame, the spindle engages with a threaded nut mounted in the upper portion of the adjustment arm, the threaded nut being pivotable with respect to the adjustment arm, the spindle traverses a pin attached to the frame and extends in the direction of the rotation axis of the cutting drum, the spindle being pivotable about a longitudinal axis of the pin, and the force transducer is a ring-shaped transducer mounted between the pin and a disc that is uniform with the spindle. 6 . The forage harvester according to claim 5 , wherein the pin is cylindrical in shape and fixed to the frame, the spindle being clamped to the pin by a pair of side pieces on either side of the pin which are pivotable about the cylindrical pin, and wherein the force transducer is mounted between the disc and the side piece on the side of the motor. 7 . The forage harvester according to claim 4 , wherein the actuator is a variable length actuator pivotably connected to the upper portion of the adjustment arm and to the frame by a first and second pivot respectively. 8 . The forage harvester according to claim 7 , wherein the force transducer is a draft sensor mounted in the pivot that connects the actuator to the frame. 9 . The forage harvester according to claim 7 , wherein the variable length actuator is a hydraulic actuator including a hydraulic cylinder and a hydraulic piston and a piston rod, the hydraulic piston dividing the cylinder into two compartments, one of the compartments including at least a portion of the piston rod defining a piston rod compartment, and the sensor arrangement includes a pressure sensor configured to measure a pressure in the piston rod compartment of the cylinder. 10 . The forage harvester according to claim 3 , wherein the shear bar holder is slidable in a forward or a backward direction and the actuator displaces the shear bar holder in said forward or backward direction. 11 . The forage harvester according to claim 10 , wherein the actuator is a threaded spindle that is rotatable about its central axis wherein said rotation is driven by a motor mounted on the frame, the spindle engages with a threaded nut incorporated in the shear bar holder, the force transducer is a ring-shaped transducer mounted between the frame and a disc that is uniform with the spindle. 12 . The forage harvester according to claim 10 , wherein the actuator is a variable length actuator having a first and second end, wherein the first end is attached to the shear bar holder and the second end is connected to the frame and wherein the force transducer is a draft sensor mounted in the connection of the second end of the actuator to the frame. 13 . The forage harvester according to claim 12 , wherein the variable length actuator is a hydraulic actuator comprising a hydraulic cylinder and a hydraulic piston and a piston rod, the hydraulic piston dividing the cylinder into two compartments, one of the compartments being a piston rod compartment, and wherein the sensor arrangement includes a pressure sensor measures a pressure in the piston rod compartment of the cylinder. 14 . The forage harvester according to claim 1 , wherein the actuator is a hydraulic variable length actuator comprising a hydraulic cylinder and a hydraulic piston and a piston rod, the hydraulic piston dividing the cylinder into two compartments, one of the compartments being a piston rod compartment, and wherein the sensor arrangement includes a pressure sensor to measure a pressure in the piston rod compartment of the cylinder. 15 . A method for monitoring the condition of the knives on a cutting drum and of a shear bar in a forage harvester, the forage harvester including, a frame, a cutting arrangement including the cutting drum that is rotatable about a rotation axis with respect to the frame, and a shear bar holder configured to receive the shear bar attached thereto, the method comprising the steps of: displacing the shear bar with respect to the cutting drum and the frame using an actuator of a displacement mechanism; measuring one or more values representative of a force exerted on the shear bar and the shear bar holder when the cutting drum is rotating and cutting crops supplied to an area between the cutting drum and the shear bar, the measuring being done by a sensor arrangement; and comparing the output of the sensor arrangement or any value derived from said output to a reference to thereby assess the condition of the shear bar and the knives of the cutting drum.