A sheet feeding device includes: a sheet storage that stores a plurality of sheets; a conveyer that conveys, in a sheet conveyance direction, sheets stored inside the sheet storage; a driver that drives the conveyer in such a manner that a conveyance speed of the sheet is switchable between two or more speeds; a corrector that corrects inclination of the sheet more on a downstream side in the sheet conveyance direction than the conveyer is; a first sheet detector that detects a sheet positioned at a first predetermined position between the conveyer and the corrector; and a hardware processor that controls the driver to change a conveyance speed of the sheet conveyed by the conveyer in accordance with a detection result of the first sheet detector.

A device for separating printed products out of a stack, the device including a feed device which defines a substantially horizontal plane, a first stop element which is arranged on a mounting support as well as a transfer device which defines a substantially horizontal plane, wherein the feed device moves the stack against the first stop element, wherein the transfer device accepts and transfers the bottommost printed product out of the stack from the feed device, wherein the feed device includes a vacuum conveyor, by means of which the bottom surface of the bottommost printed product is sucked up at least in portions, as well as to a corresponding method.

A sheet feeding apparatus includes a sheet stacker, an air blower, a float regulator, and a controller. The sheet stacker stacks sheets. The air blower blows air to the sheets. The float regulator regulates a floating position of the sheets and is movable between a float regulating position at which the float regulator regulates floating of the sheets and a retracted position. The controller transmits position information of the float regulator to a notification device.

A sheet conveying device includes a sheet stacker, an air blower, a guide, and a holder. The sheet stacker stacks sheets. The air blower blows air to the sheets on the sheet stacker. The guide is disposed facing an uppermost sheet of the sheets on the sheet stacker. The holder holds the guide and has a groove along which the guide is inserted. The groove has a plurality of direction switching portions at each of which the guide changes a direction of movement when the groove receives the guide.

A sheet feeding device comprises a bottom plate, an auxiliary tray and a tilt table. The bottom plate is configured to move along a vertical axis. The auxiliary tray is disposed on the bottom plate. The tilt table includes a lower table disposed on the bottom plate, an upper table rotatably connected to the lower table at one end of the upper table by a pivot, and a resilient member disposed between the upper table and the lower table, the resilient member configured to press the upper table upward. The auxiliary tray and the upper table are configured to receive and hold sheets in a stack.

An aspect of the present invention includes: a sheet storage unit configured to store sheets; an air blowing unit configured to blow air; a duct configured as a flow passage to an air blowing outlet for blowing air sent from the air blowing unit toward the front end of an upper part of a sheet bundle stored in the sheet storage unit; a suction transport unit configured to suck a sheet floating from the sheet bundle upward and transport the sheet; a shutter member configured to block the flow passage in the duct; and an openable/closeable member configured to open an opening part of the duct, such that air staying in the duct by blocking the flow passage by the shutter member is discharged from the opening part.

Embodiments of a system and method for singulating articles in an automatic stack feeder are disclosed. The automatic stack feeder may comprise a pressure sensor on a perforated drive belt assembly configured to sense the pressure exerted by a stack of articles. The sensed pressure may be used to control various portions of the automatic stack feeder, such as a belt or a paddle.

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.

Embodiments of a system and method for singulating articles in an automatic stack feeder are disclosed. The automatic stack feeder may comprise a pressure sensor on a perforated drive belt assembly configured to sense the pressure exerted by a stack of articles. The sensed pressure may be used to control various portions of the automatic stack feeder, such as a belt or a paddle.

A guide member (14) has an upper surface assisting conveyance of workpieces (44) mounted on a table (12) and is arranged downstream of the table (12) in a workpiece conveyance direction. A belt drive mechanism (16) has pulleys (26a to 26d, 28a to 28b), and endless belts (32a to 32d) wound around these pulleys, and is arranged above the table (12) and the guide member (14) so as to stride over the table (12) and the guide member (14). A first opening portion is formed on a bottom portion of the belt drive mechanism (16) to generate an upward suction force. A second opening portion is formed on the upper surface of the guide member (14) to generate a downward suction force. A magnitude of the suction force generated in the first opening portion exceeds a magnitude of the suction force generated in the second opening portion.