Passenger transport system with monitoring and marking device for characterizing defective step units

The invention claimed is: 1. A passenger transport system, comprising: multiple step units configured to be moved one behind the other continuously along a predefined movement path during normal operation; a comb plate arranged at a fixed position relative to the predefined movement path; and a monitoring device configured to monitor an actual position of a currently monitored step unit relative to the predefined movement path and to detect a deviation of the actual position from the predefined movement path by more than an allowable tolerance value and activate a marking device in response thereto; wherein the marking device; upon being activated, is configured to provide the currently monitored step unit and/or a step unit spatially correlating to the currently monitored step unit in a defined manner with a marking. 2. The passenger transport system according to claim 1 , wherein the marking device is configured to form the marking as a visually perceptible marking. 3. The passenger transport system according to claim 1 , wherein the marking device is configured to apply the marking to the step unit contactlessly. 4. The passenger transport system according to claim 1 , wherein the marking device comprises a paint spray device. 5. The passenger transport system according to claim 1 , wherein the marking device is configured and arranged to provide the step unit with the marking on a lower face and/or a side face of the step unit. 6. The passenger transport system according claim 1 , wherein the marking device configured to detect and identify an available marking that can be uniquely assigned to each step unit. 7. The passenger transport system according claim 1 , wherein the monitoring device comprises a mechanically operable position detector that is configured and arranged to be mechanically operated if there is a deviation of the actual position of the currently monitored step unit from the predefined movement path by more than an allowable tolerance value. 8. The passenger transport system according to claim 1 , further comprising a conveyor chain, wherein each step unit is mechanically connected to the conveyor chain at a defined position and is moved by the conveyor chain, and wherein the monitoring device is configured to indirectly monitor the position of the currently monitored step unit by monitoring a current position of the conveyor chain. 9. The passenger transport system according to claim 1 , wherein the marking device is configured to monitor the actual position of the currently monitored step unit contactlessly. 10. The passenger transport system according claim 1 , wherein the marking device is configured to monitor the actual position of the currently monitored step unit optically. 11. The passenger transport system according to claim 1 , wherein the monitoring device comprises an optically operating position detector that is configured and arranged to be operated when there is a deviation of the actual position of the currently monitored step unit from the predefined movement path by more than an allowable tolerance value. 12. The passenger transport system according to claim 1 , wherein the marking device is configured and arranged to monitor a position of a step surface of the currently monitored step unit that faces upwards. 13. The passenger transport system according to claim 1 , further comprising a guide device that is designed and arranged to guide the step units at a sufficient spacing from the comb plate whilst they are being moved. 14. The passenger transport system according to claim 1 , wherein the monitoring unit is further designed to cause the passenger transport system to cease its normal operation and/or to transmit a warning signal upon activation of the marking device. 15. The passenger transport system according to claim 1 , wherein the tolerance value is selected such that a spacing between a surface of a profile of the comb plate that faces downwards and a surface of the currently monitored step unit that is opposite said surface and faces upwards is between 0.3 mm and 3 mm. 16. A method for modernizing an existing passenger transport system, wherein the passenger transport system has multiple step units and a comb plate, wherein the step units are to be moved one behind the other continuously along a predefined movement path during normal operation, and the comb plate is arranged at a fixed position relative to the predefined movement path, the method comprising: retrofitting the passenger transport system with a monitoring device and a marking device; the monitoring device configured to monitor an actual position of a currently monitored step unit relative to the predefined movement path and to detect a deviation of the actual position from the predefined movement path by more than an allowable tolerance value and activate the marking device in response thereto; wherein upon being activated, the marking device is configured to provide the currently monitored step unit and/or a step unit spatially correlating to the currently monitored step unit in a defined manner with a marking. 17. The passenger transport system according to claim 1 , wherein the tolerance value is selected such that a spacing between a surface of a profile of the comb plate that faces downwards and a surface of the currently monitored step unit that is opposite said surface and faces upwards is between 1 mm and 1.6 mm.