A sheet processing system according to an embodiment includes a tray that supports a sheet on opposite sides of the sheet orthogonal to a conveyance direction of the sheet. The tray includes a first adjustable support and second adjustable support positioned opposite the first adjustable support in the direction orthogonal to the conveyance direction of the sheet. A skew sensor detects a skew angle of the sheet conveyed to the tray. A corner sensor detects positions of each corner on a front end in the downstream direction of the sheet conveyed to the tray. A controller controls movement of the first and second adjustable supports based on the detected skew angle and the detected positions of each corner on the front end of the sheet conveyed to the tray so that the sheet is conveyed to the tray without jamming.

The invention relates to an unwinding system, an assembly and a method for unwinding a tire component from a stock reel and for outputting said tire component in a transport direction, wherein the unwinding system comprises a reel station, an output conveyor and a transfer device for transferring a leading end of the tire component from the reel station to said output conveyor, wherein the transfer device comprises a retaining member which is movable along a guide path between a pick-up position and a release position, wherein the retaining member comprises a retaining surface for releasably retaining the leading end of the tire component, wherein the transfer device further comprises an arm that is rotatable around the inverting axis for moving the retaining member along the guide path, wherein the retaining member is movable with respect to the arm in an extension direction perpendicular to the inverting axis.

A glove stacking apparatus for forming a stack of gloves for packing into a box comprises a packing recess for receiving gloves to be stacked and for containing the stack as the stack is being formed, and a glove placement means for moving and depositing gloves at the recess one of top of another for forming the stack of gloves. The recess has a pair of opposite side edges. A movable floor within the recess is lowered as the stack of gloves grows whereby the stack of gloves continues to be retained within the recess as gloves are added to the stack. The glove placement means is arranged to deposit gloves with a portion of each glove overlapping alternately one or the other of the opposite side edges of the recess as subsequent gloves are deposited. The apparatus also comprises a pair of movable flaps adjacent the opposite side edges of the recess for folding alternately inwards towards the recess the portions of that gloves that overlap alternately one or another of the opposite side edges of the recess.

A glove stacking apparatus for forming a stack of gloves for packing into a box comprises a packing recess for receiving gloves to be stacked and for containing the stack as the stack is being formed, and a glove placement means for moving and depositing gloves at the recess one of top of another for forming the stack of gloves. The recess has a pair of opposite side edges. A movable floor within the recess is lowered as the stack of gloves grows whereby the stack of gloves continues to be retained within the recess as gloves are added to the stack. The glove placement means is arranged to deposit gloves with a portion of each glove overlapping alternately one or the other of the opposite side edges of the recess as subsequent gloves are deposited. The apparatus also comprises a pair of movable flaps adjacent the opposite side edges of the recess for folding alternately inwards towards the recess the portions of that gloves that overlap alternately one or another of the opposite side edges of the recess.

A sheet feeding device includes: a sheet stacker that stores a sheet in a stacked state; a separating air blower that blows air to a sheet from a leading end side in a sheet feeding direction of the stacked sheet; a floating air blower that blows air to a sheet from both sides of a sheet end orthogonal to the sheet feeding direction of the stacked sheet; an attractor that attracts an uppermost sheet that has been floated; a blow direction switcher that changes a blow direction of the floating air blower to an arbitrary direction; and a hardware processor that controls change in the blow direction of the floating air blower by the blow direction switcher in accordance with at least one of a basis weight, a size, and a floating property of a sheet.

A sheet feeding device includes: a sheet stacker that stores a sheet in a stacked state; a separating air blower that blows air to a sheet from a leading end side in a sheet feeding direction of the stacked sheet; a floating air blower that blows air to a sheet from both sides of a sheet end orthogonal to the sheet feeding direction of the stacked sheet; an attractor that attracts an uppermost sheet that has been floated; a blow direction switcher that changes a blow direction of the floating air blower to an arbitrary direction; and a hardware processor that controls change in the blow direction of the floating air blower by the blow direction switcher in accordance with at least one of a basis weight, a size, and a floating property of a sheet.

A sheet processing system according to an embodiment includes a tray that supports a sheet on opposite sides of the sheet orthogonal to a conveyance direction of the sheet. The tray includes a first adjustable support and second adjustable support positioned opposite the first adjustable support in the direction orthogonal to the conveyance direction of the sheet. A skew sensor detects a skew angle of the sheet conveyed to the tray. A corner sensor detects positions of each corner on a front end in the downstream direction of the sheet conveyed to the tray. A controller controls movement of the first and second adjustable supports based on the detected skew angle and the detected positions of each corner on the front end of the sheet conveyed to the tray so that the sheet is conveyed to the tray without jamming.

A sheet processing system according to an embodiment includes a tray that supports a sheet on opposite sides of the sheet orthogonal to a conveyance direction of the sheet. The tray includes a first adjustable support and second adjustable support positioned opposite the first adjustable support in the direction orthogonal to the conveyance direction of the sheet. A skew sensor detects a skew angle of the sheet conveyed to the tray. A corner sensor detects positions of each corner on a front end in the downstream direction of the sheet conveyed to the tray. A controller controls movement of the first and second adjustable supports based on the detected skew angle and the detected positions of each corner on the front end of the sheet conveyed to the tray so that the sheet is conveyed to the tray without jamming.

A media ejecting apparatus includes: an imaging device to image a medium to generate an input image, an ejection roller located downstream from the imaging device in a media ejection direction to eject the medium imaged by the imaging device, a sensor located between the imaging device and the ejection roller to detect a part of a trailing end of the medium, and circuitry. The circuitry detects an amount of inclination of the medium. The circuitry determines whether an entire trailing end of the medium has passed an imaging position of the imaging device based on the amount of inclination when a part of the trailing end of the medium passes the sensor and generate a determination result. The circuitry controls the ejection roller based on the determination result.

An image forming apparatus determines whether crease processing at a plurality of portions set on the sheet includes crease processing on two, front and back surfaces of the sheet; determines, if it is determined that crease processing includes crease processing on the two surfaces of the sheet, whether a connected post-processing apparatus that performs crease processing on a sheet can perform crease processing on the two, front and back surfaces of the sheet by one feeding; and controls, if it is determined that the connected post-processing apparatus cannot perform crease processing on the two surfaces by one feeding, to change, to one of the front and back surfaces of the sheet based on attribute information of the sheet, a surface to be processed in crease processing at the plurality of portions.