Method and device for tandem- or multiple-axle drive for a vehicle

1 . A control method for a wheel system including a multi-drive axle for a vehicle, the wheel system comprises at least two driven axles whereof each axle is provided with a pair of wheels and connected to a driveshaft via differentials, the driveshaft comprising a coupling positioned between each differential so as to divide the driveshaft into different driveshaft portions which can change between being drivingly connected and disconnected to the driveshaft, the wheel system further comprising angular speed sensors designed to detect the angular speed of the wheels connected thereto, the control method comprising the steps of: controlling the coupling to be disconnected such that each drive shaft portion is drivingly disconnected from at least one further drive shaft portion, detecting angular speed of the wheels connected thereto by the angular speed sensors while the driven axles are drivingly disconnected; using the detected angular speed of the wheels connected thereto in order to calculate a difference between the angular speed of the respective wheels of the driven axles; comparing the angular speed difference detected between wheels with reference values; and using the comparison of the angular speed difference to be an indication of different wheel radius and triggering a warning signal and/or a control action in case the angular speed difference is outside an allowable value. 2 . A control method according to claim 1 , wherein it is used for a wheel system comprising a lifting mechanism acting on a driven rear axle for being able to shift the position of the wheels on that axle between being in a working position in contact with the ground surface and being lifted up to be in a resting position above a ground contact level, the method comprising the following steps which may precede the steps of claim 6 : lowering the liftable axle from an up-lifted resting position, in which the wheel pair of the liftable axle is above a ground contact level, to a lowered working position, in which the wheels are in contact with the ground, while the coupling is disconnected such that the liftable axle is drivingly disconnected from the other axles; maintaining the coupling disconnected to keep the driven axles drivingly disconnected at least until it is indicated that the detected angular speed values from the angular speed sensors, indicating the angular speed of the wheel pairs, are stabilized. 3 . A control method according to claim 2 , wherein if the angular speed difference is outside a critical upper limit, and in dependence of further parameters such as load and vehicle speed, the liftable axle is controlled to be drivingly disconnected from the other axles. 4 . A control method according to claim 1 , wherein if a calculated angular speed difference between the angular speed of the driven axles exceeds a “change warning limit”, then it is indicated that a change of position of the tires from one axle to another should be performed. 5 . A control method according to claim 1 , wherein if a calculated angular speed difference between the angular speed of the driven axles exceeds a “check warning limit”, then it is indicated that a manual check of the conditions of the tires should be performed. 6 . A control method according to claim 1 , wherein an angular speed is detected by wheel speed angular sensors for a wheel on each side of the axles for all axles being connectable to the driveshaft in the wheel system and the angular speed for each one of wheels are used in order to calculate an angular speed difference between the axles. 7 . A control method according to claim 1 , wherein the detected angular speed of the wheels used in order to calculate an angular speed difference between the angular speed of the first and second axles and/or a difference between the angular speed of the respective wheels of the first and second axles are taken when at least two of the following conditions are fulfilled: the turning radius of the vehicle is above a prescribed limit; the speed variations of the vehicle are below a prescribed limit; the tire pressure difference between different wheels is within a prescribed limit; the load distribution between the different axles is within a prescribed limit; the wheels are not being controlled by an anti-block braking system or a wheel slip control system while the angular speed is detected; the braking force on the measured wheels is below a prescribed value; the driving torque on the measured wheels is below a prescribed value; the tire temperature, or tire temperature difference, is within a prescribed limit; the axle differentials should be free; the measuring time point is selected by predicting an upcoming driving sequence. 8 . A computer comprising a computer program for performing the steps of claim 1 when the program is run on the computer. 9 . A non-transitory computer readable medium carrying a computer program for performing the steps of claim 1 when the program product is run on a computer. 10 . An electronic control unit (ECU) for controlling a wheel system, the electronic control unit (ECU) being configured to perform the steps of the method according to claim 1 . 11 - 15 . (canceled)