Agricultural machine with vibration-dampened attachment

The invention claimed is: 1 . An agricultural machine comprising: a carrier vehicle and an attachment that is pivotably guided on the carrier vehicle about an axis extending in a direction of travel of the carrier vehicle; at least two support wheels connected, via respective dampened compressible arms, on both sides of the axis to the attachment; at least one sensor configured to generate sensor data indicative of operation of the attachment; and a control circuit configured to: determine, based on the sensor data, whether to modify a pivoting motion of the attachment; responsive to determining to modify the pivoting motion of the attachment: determine a change to compressibility of one of the compressible arms; and send at least one command to change the compressibility of the one of the compressible arms in order to change its compressible state. 2 . The agricultural machine of claim 1 , wherein the control circuit is configured to send the at least one command to change the one of the compressible arms to switch from a strongly dampened compressible state to a substantially undampened state. 3 . The agricultural machine of claim 2 , wherein the control circuit is further configured to receive an indicator of roll angle of the attachment; wherein the control circuit is configured to analyze the indicator of the roll angle to determine whether to modify the pivoting motion of the attachment; and wherein, responsive to the control circuit determining to modify the pivoting motion of the attachment, the control circuit is configured to send the at least one command to change a state of at least one arm that is compressed by the pivoting motion to switch from the strongly dampened compressible state to the substantially undampened state. 4 . The agricultural machine of claim 1 , wherein the control circuit is configured to determine the change to the compressibility of the one of the compressible arms by: determining the compressibility of the other of the compressible arms; responsive to determining that the other of the compressible arms is in a strongly dampened compressible state, determining to switch the one of the compressible arms to a substantially undampened state. 5 . The agricultural machine of claim 1 , wherein the control circuit is configured to determine the change to the compressibility of the one of the compressible arms based on a compressible state of another of the compressible arms. 6 . The agricultural machine of claim 1 , further comprising at least one actuator that contacts the carrier vehicle and the attachment and configured to drive a pivoting motion about the axis between the carrier vehicle and the attachment; and wherein the control circuit, responsive to determining to modify the pivoting motion of the attachment, is configured to send the at least one command to cause the at least one actuator to change the compressible state of the one of the compressible arms. 7 . The agricultural machine of claim 1 , wherein the control circuit is configured to send at least one command to change the compressibility by commanding to switch damping of at least one arm from a substantially undampened state to a strongly dampened state over a course of a compressing process thereof. 8 . The agricultural machine of claim 7 , wherein each of at least two compressible arms comprises an actuating cylinder; wherein a chamber of the actuating cylinder is connected to a reservoir via a hydraulic circuit; wherein a flow resistance of the hydraulic circuit is switchable between values corresponding to the substantially undampened state and the strongly dampened state; and wherein the control circuit is configured to command the switch by commanding the actuating cylinder. 9 . The agricultural machine of claim 8 , wherein at least one of the at least two compressible arms has an arm element articulated at a first end to the attachment and defines at a second end an axis of one of the at least two support wheels; wherein the actuating cylinder is articulated to the arm element and to the attachment; and wherein the control circuit is configured to change the compressibility of the one of the compressible arms by controlling the actuating cylinder. 10 . The agricultural machine of claim 8 , wherein the hydraulic circuit comprises a throttle point and a switching valve parallel to the throttle point. 11 . The agricultural machine of claim 10 , wherein the hydraulic circuit furthermore comprises a check valve parallel to the throttle point. 12 . The agricultural machine of claim 11 , wherein the throttle point comprises a pressure control valve controlled by pressure at its connection facing the actuating cylinder. 13 . The agricultural machine of claim 10 , wherein the compressible arms are each assigned a ground distance meter that is configured to generate data indicative of distance to a ground; and wherein the control circuit is configured to modify damping depending on a measured ground distance of at least one of the compressible arms, or a difference between ground distances measured by the ground distance meters on both sides of the axis. 14 . The agricultural machine of claim 13 , wherein the control circuit is configured to control the switching valve in the hydraulic circuit of one of the compressible arms to open: when a first threshold is equaled or exceeded by the ground distance measured by the ground distance meter associated with the at least one of the compressible arms; or when a difference between the ground distance measured by the ground distance meter associated with one arm and the ground distance measured by the ground distance meter on an opposite side of the axis meets or exceeds a first difference threshold; and wherein the control circuit is configured to control the switching valve in the hydraulic circuit of the one of the compressible arms to close: when a second threshold is equaled or is less than the ground distance measured by the ground distance meter associated with the at least one of the compressible arms; or when a difference between the ground distance measured by the ground distance meter associated with one arm and the ground distance measured by the ground distance meter on the opposite side of the axis meets or is less than a second difference threshold, and wherein the second threshold is less than the first threshold or where the second difference threshold is less than the first difference threshold. 15 . The agricultural machine of claim 1 , wherein the at least one sensor is configured to generate sensor data indicative of roll angle of the attachment; and wherein the control circuit is configured to analyze the sensor data indicative of the roll angle in order to determine whether to modify the pivoting motion of the attachment. 16 . The agricultural machine of claim 15 , wherein the sensor data indicative of the roll angle is based on: a distance of one side of the attachment to a ground; or a difference of a distance of one side of the attachment to a ground to a distance of an opposite side of the attachment to the ground. 17 . The agricultural machine of claim 15 , wherein the sensor data indicative of the roll angle is based on: a ground distance of one side of the attachment to a ground; or a difference of the ground distance of one side of the attachment to a ground to the ground distance of an opposite side of the attachment to the ground; wherein the control circuit is configured to change the compressibility of the at least one of the c