A cutting device includes a fixed blade and a movable blade that slides with respect to the fixed blade during cutting, the movable blade having a first end that engages with the fixed blade at cutting start and a second end that engages with the fixed blade at cutting end, an urging member connected to the movable blade to urge the movable blade towards the fixed blade and a rotation of the movable blade in a first rotational direction, and a support for the movable blade having a shaft that rotates as the movable blade moves, the shaft having a center portion and first and second ends rotatably connected to the movable blade, wherein points of connection of the first and second ends are at locations that urge a rotation of the movable blade in a second rotational direction opposite the first rotational direction.

In one example, a device for unwinding or winding multiple rolls of print substrate includes multiple spindles each to hold a roll of print substrate and a differential operatively connected to one end of each spindle. The spindles are aligned with one another lengthwise along a spindle axis and the differential is to output torque along a differential axis offset from the spindle axis to turn the spindles on the first axis.

A media feeding system comprises a driver configured to rotate a media roll in a first direction; a vacuum roller positioned in a media feed path and configured to rotate in the first direction; and a media end detecting sensor positioned in the media feed path, the media end detecting sensor being configured to detect a leading edge of the media; wherein the driver rotates the media roll in a second direction opposite the first direction in response to the sensor detecting the leading end of the media.

The tape feeder set-up system has a tape feeder, having an electric motor, for feeding a carrier tape wound on a reel and accommodating multiple components in a predetermined feed direction; a loading table on which the tape feeder can be loaded; a scheduled use determination section for determining whether a component in the tape feeder loaded on the loading table is scheduled to be used based on a component usage schedule, and a control section for reversing the carrier tape in a direction opposite to the predetermined feed direction by controlling the electric motor of the tape feeder when the scheduled use determination section determines that the component is not scheduled to be used.

A sheet supplying apparatus, in which a user can select either automatic sheet feeding or manual sheet feeding, includes a driving unit configured to cause a roll including a wound consecutive sheet to rotate in a first direction for feeding the sheet or a second direction opposite to the first direction, a first sensor that detects a leading end portion of the sheet separated from an outer circumferential surface of the roll, a second sensor that detects the leading end portion which is manually set in a conveyance path by the user, and a determination unit configured to determine whether or not automatic sheet feeding is performed on the basis of a detection result of the second sensor.

A sheet supplying apparatus, in which a user can select either automatic sheet feeding or manual sheet feeding, includes a driving unit configured to cause a roll including a wound consecutive sheet to rotate in a first direction for feeding the sheet or a second direction opposite to the first direction, a first sensor that detects a leading end portion of the sheet separated from an outer circumferential surface of the roll, a second sensor that detects the leading end portion which is manually set in a conveyance path by the user, and a determination unit configured to determine whether or not automatic sheet feeding is performed on the basis of a detection result of the second sensor.

A feeding apparatus includes a roll support unit configured to rotatably support a roll sheet which is a sheet wound into a roll form, a drive unit configured to rotate the roll sheet in a first rotation direction for feeding the sheet into a conveyance path and a second rotation direction, an abutment portion provided so as to be capable of abutting against an outer peripheral surface of the roll sheet at a first position, and a rotation member configured to abut against the outer peripheral surface at a second position. The rotation member at the second position does not rotate with the roll sheet when the roll sheet is rotated in the first rotation direction, and rotates with the roll sheet when the roll sheet is rotated in the second rotation direction.

A trailing portion of a sheet drawn out of a sheet roll is discharged with a simple configuration. In a case where a trailing portion of the sheet is drawn out of the sheet roll, a driven roller is brought into press-contact with a core of the sheet roll via the trailing portion, whereby the trailing portion is discharged by utilizing the rotation of the core of the sheet roll.

A method of film production includes the steps of obtaining defect information including information on the position of a defect (D) in a separator original sheet (12b), slitting the separator original sheet (12b) to produce a plurality of separators (12a), and determining, on the basis of the defect information on a single defect (D), that a separator (12a) actually having the defect (D) and another separator (12a) adjacent to the above separator (12a) are defective.

A method of film production includes the steps of obtaining defect information including information on the position of a defect (D) in a separator original sheet (12b), slitting the separator original sheet (12b) to produce a plurality of separators (12a), and determining, on the basis of the defect information on a single defect (D), that a separator (12a) actually having the defect (D) and another separator (12a) adjacent to the above separator (12a) are defective.