A paper feeding device of an image forming device includes a flotation air blowing unit and a separation air blowing unit. The flotation air blowing unit floats stacked uppermost paper through air blowing. The separation air blowing unit blows an end of other paper floated together with the floated uppermost paper to separate the other paper from the uppermost paper, the end being on the downstream side in the paper feeding direction. The flotation air blowing unit floats an end of the stacked uppermost paper, the end being on the downstream side in the paper feeding direction. The paper feeding device includes a resistance force applying mechanism which applies resistance force that gives a load against movement along the paper feeding direction to an end of stacked upper paper, the end being on the upstream side in the paper feeding direction.

A storage module (1) comprises a storage zone (3) for storing flat articles (2) by accumulation in a stack and on edge, a main conveyor (9) that extends transversely to the storage zone, a stacking function for transferring an article from the main conveyor to the storage zone and for stacking it at the back of the stack of articles in the storage zone, and an unstacking function for extracting an article from the stack of articles and for transferring it to the main conveyor. The unstacking function comprises an unstacking plate (7) having a perforated belt and controlled suction and disposed between the main conveyor and the storage zone, said unstacking plate having a first segment parallel to the stack of articles and a second segment that is adjacent to the first segment and that extends slantwise relative to the first segment, said controlled suction being disposed in the slantwise second segment of the unstacking plate.

A storage module (1) comprises a storage zone (3) for storing flat articles (2) by accumulation in a stack and on edge, a main conveyor (9) that extends transversely to the storage zone, a stacking function for transferring an article from the main conveyor to the storage zone and for stacking it at the back of the stack of articles in the storage zone, and an unstacking function for extracting an article from the stack of articles and for transferring it to the main conveyor. The unstacking function comprises an unstacking plate (7) having a perforated belt and controlled suction and disposed between the main conveyor and the storage zone, said unstacking plate having a first segment parallel to the stack of articles and a second segment that is adjacent to the first segment and that extends slantwise relative to the first segment, said controlled suction being disposed in the slantwise second segment of the unstacking plate.

A paper feeding apparatus includes: a sheet loading unit for loading a bundle of sheets; a separation unit that separates a topmost sheet of the bundle of sheets loaded on the sheet loading unit, from the bundle of sheets; a conveyance unit that conveys the separated topmost sheet; an end fence that is movable in a sheet conveyance direction, abuts trailing ends in the sheet conveyance direction, and positions the bundle of sheets in the sheet conveyance direction; and a pressing unit that is provided in such a manner as to protrude from the end fence, and is able to press the trailing ends in the sheet conveyance direction of at least an upper part of the bundle of sheets, wherein the pressing unit has different pressing forces at an upper and a lower portion thereof, and has the lower pressing force stronger than the upper pressing force.

A sheet feeding apparatus includes: a second conveyance belt disposed on an upstream side of a first conveyance belt in a sheet conveyance direction; a second absorption section configured to absorb the sheet stored in the sheet storage section to suck the sheet on the second conveyance belt; and a control section configured to perform a stopping operation for stopping at least one of a conveyance operation of the second conveyance belt and an absorption operation of the second absorption section during a conveyance operation of the first conveyance belt.

A sheet feeding apparatus includes: a second conveyance belt disposed on an upstream side of a first conveyance belt in a sheet conveyance direction; a second absorption section configured to absorb the sheet stored in the sheet storage section to suck the sheet on the second conveyance belt; and a control section configured to perform a stopping operation for stopping at least one of a conveyance operation of the second conveyance belt and an absorption operation of the second absorption section during a conveyance operation of the first conveyance belt.

A sheet feeding device (1) is provided. The sheet feeding device comprises a storage surface (11) for a stack of sheets (5), a blower arrangement comprising a plurality of side blower units (21) and a front blower unit (22), at least one fan (23) configured to supply one or more air streams (3) to each of the side blower units and the front blower unit. The plurality 5 of side blower units and the front blower unit are configured to direct the one or more air streams towards an upper region (12) of the sheet feeding device for floating a plurality of upper sheets (5a) of the stack of sheets. The sheet feeding device further comprises a vacuum belt feeder (30) configured to grab and feed away an uppermost sheet (5b) of the plurality of floated sheets. The blower arrangement further comprises a heating unit (40) arranged between a first fan (23) of the at least one fan and the front blower unit, and configured to heat the one or more air streams supplied by the first fan to the front blower unit.

A sheet takeout device has a feeding section, a takeout section, an air blowout section. The feeding section has a bottom wall with which one sides of a plurality of stacked sheets come in contact, and holds the plurality of sheets. The takeout section takes out the tipmost sheet by suction from the plurality of sheets, and sends out the tipmost sheet in a sending direction. The air blowout section blows out air toward between the one side of the sheet to be sucked by the takeout section and the one side of the sheet next to this sheet. The air blowout section has a first air blowout portion arranged at a position corresponding to a forward portion of the sheet in the sending direction, and a second air blowout portion arranged at a position corresponding to a backward portion of the sheet in the sending direction.

A mail hazard screening machine is configured to compress mail pieces or envelops through compression rollers and draw out this air and any hazard that may have been contained in the envelope. The system may be able to detect a wide range of hazards such as chemical, biological, radioactive, nuclear, explosive and drugs, abbreviated CBRNE+D. The sample air, the air drawn out from the hazard screening system, may be directed to one or more analysis devices and the mail processing machine may be stopped if any hazard is detected. The mail piece containing the hazard can then be found and further inspected safely. A mail feeder system may be configured to deliver mail pieces to the hazard screening system without compression of the mail pieces or envelopes.

The present invention relates to a feeder module for discharging sheets into a converting machine. The feeder module comprises a movable discharge conveyor comprising a plurality of belt conveyors which are configured to move between a discharge position (DP) in which the belt conveyors are contacting the lowermost positioned sheet in the stack and discharges said sheet, and a clearing position (CP) in which the conveyor belts are located underneath the loading surface.