Methods for operating a delivery device and delivery device for a sheet processing machine

The invention claimed is: 1. A method for operating a sheet delivery device having a first pile delivery and having a second pile delivery, both being located in a sheet transport direction, wherein a first braking system is provided in an intake region of the first pile delivery in a transport path of sheets that are conveyed by a conveyor system along the sheet transport direction, and a second braking system is provided in an intake region of the second pile delivery, wherein, substrate sheets entering the first braking system come into one of form-fitting and friction-locking operative contact with an operative surface of a holding means that is part of the first braking system, the operative surface of the holding means of the first braking system, that comes into operative contact with a first substrate sheet, is moved forcibly in the sheet transport direction by a drive, wherein in a first operating mode of the first braking system, during the one of the form-fitting and friction-locking interaction between the first substrate sheet and the operative surface of the holding means of the first braking system, and in which the first substrate sheet will be deposited onto a first pile in the first pile delivery, a speed at which the operative surface of the holding means of the first braking system moves is decreased from a first speed to a comparatively lower deposition speed, and in a second operating mode of the first braking system, for a subsequently incoming substrate sheet, that will be deposited onto a second pile in the second pile delivery, for at least the entire duration of the one of the form-fitting and friction-locking operative contact between the subsequently incoming substrate sheet and the operative surface of the holding means of the first braking system, that operative surface of the holding means of the first braking system is caused to move at a second speed that corresponds, with a maximum deviation of up to ±10%, to a first conveying speed of the conveyor system. 2. The method according to claim 1 , characterized in that the subsequently incoming substrate sheet, that has been guided over the first braking system being operated in the second operating mode, is conveyed past the first pile delivery, and is conveyed by the conveyor system over the second braking system to the second pile delivery, where it is decelerated by the second braking system being operated in a third operating mode that corresponds to the first operating mode of the first braking system, and is deposited onto the second pile in the second pile delivery. 3. The method according to claim 2 , characterized in that for a period of time one of during and after the deceleration of a substrate sheet that will be deposited in the first pile delivery, blower air under positive pressure is blown onto said substrate sheet from above, said blower air coming from a blower system, which blower system is provided above the transport path of the substrate sheets that are conveyed by the conveyor system along the transport direction, above the deposition point of the first pile delivery, and which blower system comprises a plurality of compressed air-operated blower air openings for blowing air onto the substrate sheet, which blower air openings are directed toward the transport path. 4. The method according to claim 1 , characterized in that, to deposit a substrate sheet that will be deposited in the first pile delivery, stop means of a stop device are moved from an inactive position into the transport path of the approaching substrate sheet, and for a substrate sheet that will be conveyed past said first delivery, the stop means are moved out of the transport path and into the inactive position. 5. The method according to claim 1 , characterized in that, in the first operating mode, the holding means of the first braking system is activated, in terms of its holding action, for at least the entire duration of the decreased speed from the first speed to the a deposition speed, and is deactivated during at least part of one of a directly and indirectly subsequent acceleration phase. 6. The method according to claim 1 , characterized in that, in the second operating mode, the holding means of the first braking system is activated, in terms of its holding action, at least for the entire duration of contact between the holding means and the substrate sheet. 7. The method according to claim 1 , characterized in that, in the second operating mode, the holding means of the first braking system is activated, without interruption, for a period of time that extends throughout contact phases of a plurality of substrate sheets that are guided in succession over the first braking system. 8. The method according to claim 3 , characterized in that the blower air openings are pressurized from the inside with compressed air at a pressure of more than 0.6 bar above normal pressure. 9. The method according to claim 1 , characterized in that, in the first operating mode, the first speed of the holding means that is part of the first braking system is at least 5 m/s, and the deposition speed of the holding means that is part of the first braking system is less than 2 m/s. 10. The method according to claim 1 , characterized in that, to adjust the first braking system to one of an ongoing and an upcoming print job, one of one or more braking devices that are part of the first braking system, each of which braking devices supports one or more of the holding means, are positioned in one of in the axial direction, and in the braking system itself, and braking devices that are part of the braking system and that each include at least one holding means, are positioned in the transport direction. 11. The method according to claim 1 , further including, to operate the sheet delivery system in a fourth operating mode, in which the first pile delivery is deactivated in terms of an ability to deposit sheets, one of the first braking system, and at least an operative surface of the first braking system that comes into operative contact with the substrate sheet, and a downstream end of a variable-operative-length sheet guiding element of the first pile delivery, is moved to a support position, which support position is located at a point downstream of a position occupied by the one of the first braking system and the operative surface thereof and by the downstream end of the variable-operative-length sheet guiding element for a format length of the substrate sheets currently being deposited in the delivery system in the first operating mode. 12. A delivery device for a sheet-processing machine having a sheet guiding device, and having a first pile delivery and a second pile delivery in the sheet transport direction, for use in a method according to claim 1 , with the conveyor system, by which substrate sheets can be conveyed at the first conveying speed along the sheet transport direction above the first pile delivery and can one of be deposited at the first pile delivery onto a first pile and conveyed further downstream above the second pile delivery, with the first braking system, which is provided upstream of the first pile delivery in the transport path of the substrate sheets which substrate sheets one of are and can be conveyed at the first conveying speed, with the second braking system, which is provided upstream of the second pile delivery in the transport path of the substrate sheets that one of are and can be conveyed at the first conveying speed, wherein the first braking system comprises the holding means with the operative surface, which, when activated, can be brought into one of form-fitting and friction-locking operative con