Locking control method for a pivot axle, a pivot axle locking controller and a pivot axle locking system

The invention claimed is: 1 . A locking control method for a pivot axle of a wheeled working machine comprising the steps: determining, using a multibody simulation model, a current posture and motion state of a working machine and static and dynamic forces acting on the working machine; determining a relevant tipping line based on a current locking status of a pivot axle of the working machine; calculating torques acting on the working machine based on information on the current posture, the motion state, and the static and dynamic forces; determining a control command for a pivot axle locking mechanism of the working machine based on the calculated torques and the tipping line; and providing the control command to the pivot axle locking mechanism. 2 . The locking control method according to claim 1 , wherein determining a current posture and motion state of the working machine and static and dynamic forces comprises measuring swing angle and orientation of attachment parts of the working machine and calculating an overall center of gravity (COG). 3 . The locking control method according to claim 1 , wherein determining a current posture and motion state of the working machine and static and dynamic forces comprises measuring vehicle acceleration and/or angular accelerations of an upper carriage and/or attachment parts of the working machine, vehicle speed and/or angular speed of the upper carriage and attachment parts, orientation of the attachment parts, swing angle and brake pressure and providing these measurements to the multibody simulation model, wherein angular acceleration, angular speed and orientation are measured via at least one inertial measurement unit. 4 . The locking control method according to claim 1 , wherein determining a current posture and motion state of the working machine comprises additionally measuring a pressure in a boom cylinder to determine a load attached. 5 . The locking control method according to claim 1 , wherein determining a control command comprises balancing the calculated torques around the relevant tipping line. 6 . The locking control method according to claim 1 , wherein a hysteresis is applied before providing the control command to the pivot axle locking mechanism or wherein a hysteresis signal is provided to the pivot axle locking mechanism. 7 . A pivot axle locking controller configured to perform the steps of the locking control method according to claim 1 . 8 . A computer program comprising program code for performing the steps of the locking control method according to claim 1 when said computer program is run on a computer. 9 . A computer readable medium carrying a computer program comprising program code for performing the steps of the locking control method according to claim 1 when said computer program is run on a computer. 10 . A pivot axle locking system comprising: a pivot axle locking mechanism comprising a hydraulic locking valve, and a pivot axle locking controller configured to perform operations comprising: determining, using a multibody simulation model, a current posture and motion state of a working machine and static and dynamic forces acting on the working machine; determining a relevant tipping line based on a current locking status of a pivot axle of the working machine; calculating torques acting on the working machine based on information on the current posture, the motion state, and the static and dynamic forces; determining a control command for the pivot axle locking mechanism of the working machine based on the calculated torques and the tipping line; and providing the control command to the pivot axle locking mechanism. 11 . The pivot axle locking system according to claim 10 further comprising at least one inertial measurement unit and a swing angle sensor, which are connected to the pivot axle locking controller. 12 . The pivot axle locking system according to claim 10 further comprising a pressure sensor in a boom cylinder of the working machine. 13 . The pivot axle locking system according to claim 10 , wherein the hydraulic locking valve is a solenoid valve. 14 . The pivot axle locking system according to claim 10 , further comprising a proportional throttle valve. 15 . A wheeled working machine with a pivot axle locking system according to claim 10 .