A method for feeding uneven media from a high capacity feeder includes rotating the pages in a stack 180° every 100-250 pages. This is only done with non-flat pages, such as, envelopes, pages with labels thereon, etc., which create tilted stacks and limit the number of pages that can be placed in the high capacity feeder. Rotating the pages 180° distributes the uneven build-up of the pages and creates a relatively flat stack, allowing the high capacity feeder to be filled to capacity. A camera or sensor placed in the high capacity feeder will detect the orientation of the stack on the fly so the image can be rotated accordingly.

Exemplary embodiments are disclosed herein for processing one or more sheets of sheet material in a deposit include various systems and processes. The systems and processes include receiving a sheet in a sheet-accepting device. Further, the systems and processes include detecting, by a sensor, characteristic information about the sheet. The characteristic information indicates whether the sheet is anomalous. The systems and processes also include encoding, by an encoding device, the sheet based on the characteristic information detected by the sensor. The encoding includes encoding the sheet with anomaly information when the characteristic information indicates that the sheet is anomalous. The anomaly information identifies a reason for indicating that the sheet is anomalous. Moreover, the systems and processes include disposing the encoded sheet in a container for further processing when the characteristic information indicates that the sheet is anomalous.

Exemplary embodiments are disclosed herein for processing one or more sheets of sheet material in a deposit include various systems and processes. The systems and processes include receiving a sheet in a sheet-accepting device. Further, the systems and processes include detecting, by a sensor, characteristic information about the sheet. The characteristic information indicates whether the sheet is anomalous. The systems and processes also include encoding, by an encoding device, the sheet based on the characteristic information detected by the sensor. The encoding includes encoding the sheet with anomaly information when the characteristic information indicates that the sheet is anomalous. The anomaly information identifies a reason for indicating that the sheet is anomalous. Moreover, the systems and processes include disposing the encoded sheet in a container for further processing when the characteristic information indicates that the sheet is anomalous.

A method for providing a stack of book covers for production of finished books includes supplying a task stack of book covers having identical cover formats and stacked one above another in an unknown or known sequence. Each book cover in the task stack includes an identifier comprising cover information. The book covers are separated out and conveyed from the task stack as separate book covers in a sequence that does not change until a completion signal is transmitted. The separated out book covers are counted, an identifier on each separated out book cover is detected, and cover information is read out of the respective identifier stored. The separated out book covers are deposited on top of one another in the sequence in which they were separated out for forming a detected stack. An identifier is stored that identifies the detected stack together with the temporarily stored cover information.

A method for providing a stack of book covers for production of finished books includes supplying a task stack of book covers having identical cover formats and stacked one above another in an unknown or known sequence. Each book cover in the task stack includes an identifier comprising cover information. The book covers are separated out and conveyed from the task stack as separate book covers in a sequence that does not change until a completion signal is transmitted. The separated out book covers are counted, an identifier on each separated out book cover is detected, and cover information is read out of the respective identifier stored. The separated out book covers are deposited on top of one another in the sequence in which they were separated out for forming a detected stack. An identifier is stored that identifies the detected stack together with the temporarily stored cover information.

A foil transfer film cartridge includes a supply reel on which a foil film having a widthwise dimension of a first width is wound, and a supply shaft longer in a widthwise direction of the foil film than the first width. The supply shaft is configured to support the supply reel in a manner that allows the supply reel to move in the widthwise direction between a first position and a second position different from the first position.

A foil transfer film cartridge includes a supply reel on which a foil film having a widthwise dimension of a first width is wound, and a supply shaft longer in a widthwise direction of the foil film than the first width. The supply shaft is configured to support the supply reel in a manner that allows the supply reel to move in the widthwise direction between a first position and a second position different from the first position.

A banknote deposit and withdrawal apparatus causes a control section to function as an inserted medium counting unit, a normal medium counting unit and an abnormal mediums number calculation unit. The normal medium counting unit again feeds out and conveys banknotes from the banknote deposit and withdrawal section to the verification section in a quantity corresponding to the number of inserted banknotes, conveys abnormal banknotes that are verified as abnormal by the verification section to the banknote deposit and withdrawal section together with following banknotes but conveys normal banknotes that are verified as normal by the verification section to the temporary holding section and retains the normal banknotes therein, and counts a number of normal banknotes. The abnormal mediums number calculation unit subtracts the number of normal banknotes from the number of inserted banknotes to calculate an abnormal banknotes number.

A banknote deposit and withdrawal apparatus causes a control section to function as an inserted medium counting unit, a normal medium counting unit and an abnormal mediums number calculation unit. The normal medium counting unit again feeds out and conveys banknotes from the banknote deposit and withdrawal section to the verification section in a quantity corresponding to the number of inserted banknotes, conveys abnormal banknotes that are verified as abnormal by the verification section to the banknote deposit and withdrawal section together with following banknotes but conveys normal banknotes that are verified as normal by the verification section to the temporary holding section and retains the normal banknotes therein, and counts a number of normal banknotes. The abnormal mediums number calculation unit subtracts the number of normal banknotes from the number of inserted banknotes to calculate an abnormal banknotes number.

A recording material feeding device includes a stacking portion, a driving source, a holding member, a torque limiter for limiting transmission of a driving torque from the driving source to the stacking portion in a case that the driving source rotates in a state in which the holding member holds the position of the stacking portion; a storing portion for storing information on a holding state of the holding member; and a controller for controlling the driving source to rotate at a rotational speed slower when the information is information indicating that the holding member holds the position of the stacking portion than when the information is information indicating that the holding member does not hold the position of the stacking portion.