Conveying belt assembly for a printing device

The invention claimed is: 1. A conveying belt assembly for a printing device, comprising: an endless conveyor belt having a conveying part and a return part; wherein a rotational direction is defined by the conveying direction of the endless conveyor belt and a transverse direction is defined as a direction extending perpendicular to the rotational direction; two sliding supports having a surface curved in rotational direction of the conveyor belt; one sliding support being arranged at the downstream end of the conveying part defining the downstream transition between the conveying part and the return part, the other sliding support being arranged at the upstream end of the conveying part defining the upstream transition between the conveying part and the return part; a driving roller arranged downstream of the conveying part in urging contact with the conveyor belt; a friction element arranged upstream of the conveying part in urging contact with the conveyor belt for tensioning the conveying part; a control system for controlling the position of the conveying part with respect to the transverse direction; wherein the control system comprises: a position sensing device for sensing the position of the conveying part with respect to the transverse direction; at least one actuator device, said at least one actuator device being adapted for moving the conveying part in transverse direction; a controller which is, operatively connected with the position sensing device for receiving sensor signals representing one or more of said sensed positions and operatively connected with the at least one actuator device for transmitting control signals, generated by the controller on the basis of the sensor signals, to the at least one actuator device. 2. The conveying belt assembly according to claim 1 , wherein the at least one actuator device comprises one or more from the following group: one or more actuator devices adapted for applying magnetic forces to the conveyor belt, like to the conveying part of the conveyor belt, said magnetic forces acting in transverse direction of the conveyor belt; one or more actuator devices adapted to adjust the angle of the rotational axis of the driving roller element with respect to the transverse direction; one or more pusher assemblies comprising a pusher on each side of the conveyor belt, each pusher being adapted to push against a lateral side of the conveyor belt, like to the lateral side of the conveying part of the conveyor belt; one or more vacuum devices arranged against the inner side of the endless conveyor belt and adapted for movement in transverse direction of the conveyor belt. 3. The conveying belt assembly according to claim 1 , wherein the at least one actuator device comprises an upstream actuator device and a downstream actuator device. 4. The conveying belt assembly according to claim 3 , wherein the upstream and downstream actuator devices are of the same type. 5. The conveying belt assembly according to claim 3 , wherein the upstream and downstream actuator devices are of a different type. 6. The conveying belt assembly according to claim 1 , wherein the assembly further comprises a plate arranged parallel to the conveying part on the inner side of the endless conveyor belt. 7. The conveying belt assembly according to claim 1 , wherein the assembly is of the sliding conveyor belt type. 8. The conveying belt assembly according to claim 1 , wherein the conveyor belt is wrapped around said two sliding supports and a plate arranged parallel to the conveying part on the inside of the conveyor belt; and wherein the return part of the conveyor belt, extending from the downstream sliding support up to the upstream sliding support, is freely hanging. 9. The conveying belt assembly according to claim 1 , wherein the sliding supports have a supporting surface comprising a plastic, like PE (polyethene or polyethylene) or UHMWPE (Ultra-high-molecular-weight polyethylene). 10. The conveying belt assembly according to claim 1 , wherein the sliding supports comprise an air bearing. 11. The conveying belt assembly according to claim 1 , wherein the driving roller is arranged opposite the downstream sliding support for cooperation with the downstream sliding support. 12. The conveying belt assembly according to claim 1 , wherein the friction element is arranged opposite the upstream sliding support for cooperation with the upstream sliding support. 13. A printer device, comprising a conveying belt assembly according to claim 1 , and further comprising one or more from the following group: an inkjet marking module; a drying and/or fixing unit; a storage for paper to be printed; a receptacle for printed paper. 14. Use of the conveying belt assembly according to claim 1 to control the position of a conveyor belt of a printing device.