Combine harvester with adjustable inclination of straw walkers

What is claimed is: 1. A combine harvester comprising: a threshing rotor; a front shaft rotatable about a rotation axis and comprising at least one eccentric portion; a rear shaft rotatable about a rotation axis and comprising at least one eccentric portion; at least one straw walker extending in a longitudinal direction of the combine harvester and supported by the front shaft and rear shaft, the at least one straw walker rotatably mounted on the at least one eccentric portion of each of the front shaft and the rear shaft, so that simultaneous rotation of the front shaft and the rear shaft actuates a reciprocating motion of the straw walker, wherein the straw walker is positioned such that at least a majority of the straw walker is located rearward of the threshing rotor; a pivot frame; and one or more actuators configured to adjust an angular position of the pivot frame by pivoting the pivot frame about a pivot axis oriented transversally to the longitudinal direction of the combine harvester, wherein the front shaft and the rear shaft are connected to the pivot frame and configured to rotate about their respective transverse rotation axes with respect to the pivot frame to reciprocate the straw walker, so that an angular position of the pivot frame is adjustable while the straw walker undergoes the reciprocating motion. 2. The combiner harvester according to claim 1 , wherein the pivot axis is located in front of the at least one straw walker. 3. The combine harvester according to claim 1 , wherein the pivot axis does not coincide with the rotation axis of the front shaft and with the rotation axis of the rear shaft. 4. The combine harvester according to claim 1 , wherein the pivot axis coincides with the rotation axis of the front shaft. 5. A combine harvester comprising: a front shaft rotatable about a rotation axis and comprising at least one eccentric portion; a rear shaft rotatable about a rotation axis and comprising at least one eccentric portion; at least one straw walker extending in a longitudinal direction of the combine harvester and supported by the front shaft and rear shaft, the at least one straw walker rotatably mounted on the at least one eccentric portion of each of the front shaft and the rear shaft, so that simultaneous rotation of the front shaft and the rear shaft actuates a reciprocating motion of the straw walker; a pivot frame, wherein the front and rear shafts are connected to the pivot frame; and one or more actuators configured to adjust an angular position of the pivot frame by pivoting the pivot frame about a pivot axis oriented transversally to the longitudinal direction of the combine harvester, wherein the front shaft and the rear shaft are configured to rotate with respect to the pivot frame, so that an angular position of the pivot frame is adjustable while the straw walker undergoes the reciprocating motion; wherein the pivot frame is formed as a frame comprising lateral beams and a rear transversal beam, wherein the front and rear shafts are supported by bearings mounted in or in connection with the lateral beams, and wherein the one or more actuators are coupled to the rear beam. 6. The combine harvester according to claim 1 , wherein the one or more actuators are variable length actuators coupled between the pivot frame and a support structure of the combine harvester. 7. The combine harvester according to claim 1 , wherein the pivot frame comprises a front portion and a rear portion, the rear portion carrying the front shaft and the rear shaft, the front portion being oriented upwards at an obtuse angle with respect to the rear portion, and wherein the rotation axis is located within the front portion. 8. The combine harvester according to claim 1 , wherein the front and rear shafts are crank shafts and wherein the eccentric portions are crank portions of said crank shafts. 9. The combine harvester according to claim 1 , further comprising a control unit configured to: receive input signals representative of one or more parameters related to operation of the combine harvester; calculate the angular position of the pivot frame as a function of the input signals; and send a control signal to the one or more actuators commanding the actuators to move the pivot frame to the angular position based on the calculated angular position of the pivot frame. 10. The combine harvester according to claim 9 , wherein the one or more parameters are chosen from the group consisting of: grain loss, throughput speed or layer thickness of crop material on the at least one straw walker, forward or rearward inclination of the combine harvester, crop type, and crop humidity. 11. A combine harvester comprising: a front shaft rotatable about a rotation axis and comprising at least one eccentric portion; a rear shaft rotatable about a rotation axis and comprising at least one eccentric portion; at least one straw walker extending in a longitudinal direction of the combine harvester and supported by the front shaft and rear shaft, the at least one straw walker rotatably mounted on the at least one eccentric portion of each of the front shaft and the rear shaft, so that simultaneous rotation of the front shaft and the rear shaft actuates a reciprocating motion of the straw walker; a pivot frame, wherein the front and rear shafts are connected to the pivot frame; and one or more actuators configured to adjust an angular position of the pivot frame by pivoting the pivot frame about a pivot axis oriented transversally to the longitudinal direction of the combine harvester, wherein the front shaft and the rear shaft are configured to rotate with respect to the pivot frame, so that an angular position of the pivot frame is adjustable while the straw walker undergoes the reciprocating motion; a control unit configured to: receive input signals representative of one or more parameters related to operation of the combine harvester; calculate the angular position of the pivot frame as a function of the input signals; and send a control signal to the one or more actuators commanding the actuators to move the pivot frame to the angular position based on the calculated angular position of the pivot frame; wherein the control unit is further configured to control a rotational speed of the front shaft and a rotational speed of the rear shaft on the basis of the one or more parameters.