Method and device for calibrating a clutch, and agricultural towing vehicle

What is claimed is: 1. A method for calibrating a selected clutch which, arranged within a drivetrain of an agricultural towing vehicle, is activatable between a closed and an open state, the method comprising: connecting the selected clutch in terms of drive on the drive side to a running drive motor of the agricultural towing vehicle and connecting in terms of drive on the output side to an output shaft; defining the value of a first physical variable bringing about the clutch activation; determining a second physical variable representing the rotation of the output shaft; and assigning the second physical variable representing the rotation of the output shaft to the value of the first physical variable bringing about the clutch activation, in order to generate calibration data of the selected clutch depending on the assignment; wherein the determining step includes at least one of the following steps: separating the output shaft from all drive connections mounted upstream and downstream in the power flow of the drivetrain; accelerating the output shaft by being connected in terms of drive to the drive motor and being separated from the drive connections mounted downstream in the power flow of the drivetrain; rotating the output shaft at a constant rotational speed; and decelerating the output shaft by activating a clutch unit following downstream in the power flow of the drivetrain with a defined value of a physical variable bringing about the clutch activation thereof, wherein an output-side torque of the clutch unit is equal to zero. 2. The method of claim 1 , wherein the method is carried out successively for differently defined values of the first physical variable bringing about the clutch activation. 3. The method of claim 1 , wherein the first physical variable activating the clutch is an electrical control current of a hydraulic valve activating the clutch. 4. The method of claim 1 , wherein the second physical variable representing the rotation of the output shaft is one of the following variables: a rotational speed of the output shaft, an angular speed of the output shaft, and an angular acceleration of the output shaft. 5. The method of claim 4 , wherein the angular acceleration of the output shaft has an acceleration phase brought about by the activation of the selected clutch and has a deceleration phase which is at least temporarily brought about by the activation of a clutch unit following downstream in the power flow of the drivetrain. 6. The method of claim 1 , wherein a moment of inertia of the output shaft is contained in the calibration data. 7. The method of claim 1 , wherein the calibration data include at least one physical correction variable including a drag torque of the selected clutch, a drag torque of a clutch unit following downstream of the output shaft in the power flow of the drivetrain, and a friction torque of the output shaft. 8. The method of claim 1 , wherein, during the deceleration of the output shaft, the selected clutch is in its open state and at least one of a parking lock and a braking device of the towing vehicle is activated. 9. The method of claim 1 , wherein the motor rotational speed of the drive motor is kept constant while calibrating the selected clutch. 10. A device for calibrating a selected clutch which, arranged within a drivetrain of an agricultural towing vehicle, is activatable between a closed and an open state, comprising: a hydraulic valve for activating the selected clutch between a closed and an open state; a rotational speed sensor for detecting a rotational speed of an output shaft, which is connected in terms of drive to the selected clutch on the output side thereof; and a control unit configured to: connect the selected clutch in terms of drive on the drive side to a running drive motor of the agricultural towing vehicle and is connected in terms of drive on the output side to an output shaft; define the value of a physical variable bringing about the clutch activation; determine a physical variable representing the rotation of the output shaft; assign the physical variable representing the rotation of the output shaft to the value of the physical variable bringing about the clutch activation, in order to generate calibration data of the selected clutch depending on the assignment; wherein the determining step includes at least one of the following steps: separating the output shaft from all drive connections mounted upstream and downstream in the power flow of the drivetrain; accelerating the output shaft by being connected in terms of drive to the drive motor and being separated from the drive connections mounted downstream in the power flow of the drivetrain; rotating the output shaft at a constant rotational speed; and decelerate the output shaft by activating a clutch unit following downstream in the power flow of the drivetrain with a defined value of a physical variable bringing about the clutch activation thereof, wherein an output-side torque of the clutch unit is equal to zero. 11. The device of claim 10 , wherein the control unit is configured to repeat the calibration for differently defined values of the first physical variable bringing about the clutch activation. 12. The device of claim 10 , wherein the first physical variable activating the clutch is an electrical control current of a hydraulic valve activating the clutch. 13. The device of claim 10 , wherein the second physical variable representing the rotation of the output shaft is one of the following variables: a rotational speed of the output shaft, an angular speed of the output shaft, and an angular acceleration of the output shaft. 14. The device of claim 13 , wherein the angular acceleration of the output shaft has an acceleration phase brought about by the activation of the selected clutch and has a deceleration phase which is at least temporarily brought about by the activation of a clutch unit following downstream in the power flow of the drivetrain. 15. The device of claim 10 , wherein a moment of inertia of the output shaft is contained in the calibration data. 16. The device of claim 10 , wherein the calibration data include at least one physical correction variable including a drag torque of the selected clutch, a drag torque of a clutch unit following downstream of the output shaft in the power flow of the drivetrain, and a friction torque of the output shaft. 17. The device of claim 10 , wherein, during the deceleration of the output shaft, the selected clutch is in its open state and at least one of a parking lock or a braking device of the towing vehicle is activated. 18. The device of claim 10 , wherein the motor rotational speed of the drive motor is kept constant while calibrating the selected clutch.