Embodiments of a system and method for shingulating, singulating, and synchronizing articles in an article feeder system are disclosed. The article feeder system may include a shingulating device configured to receive a stack of articles and to produce a positively lapped stack of articles, a plurality of picking devices configured to pick one or more articles from the positively lapped stack of articles and to produce one or more singulated articles, and one or more synchronization devices configured to deliver the one or more singulated articles to one or more sorter windows.

A sheet feeding device, which is included in an image forming apparatus and an image forming system, includes a sheet loader, an air drawing body, an attracting and conveying device, an air duct and a blocking device. The sheet loader is a device on which a bundle of sheets is loaded. The air drawing body is configured to generate suction air. The attracting and conveying device is configured to attract a sheet on top of the bundle of sheets by the suction air and convey the sheet. The air duct is configured to intake the suction air drawn by the air drawing body, to the attracting and conveying device. The blocking device is configured to block the suction air in the air duct.

An automated mail tray filling apparatus for taking envelopes from a vertical stacker output of an inserter machine and placing them in mail trays. A vertical stack of envelopes rests on a long stacker table. The mail tray filling apparatus has a track positioned next the vertical stacker table parallel to the length of the vertical stacker table. A mail tray transport is positioned beneath the track and arranged to transport mail trays beneath the track in a direction parallel to the vertical stacker table. A movable mail tray filler is movably mounted on the track to travel in parallel next to the vertical stacker table and above the mail tray transport, and is arranged to withdraw envelopes from the end of the vertical stack in a sideways direction. Envelopes are then redirected into a downward direction and fed into a mail tray positioned beneath the movable mail tray filler.

A feeder device for feeding mailpieces to a postal sorting conveyor has an unstacker head designed to put the mailpieces in series and on edge on the sorting conveyor, an unstacker plate designed to unstack the mailpieces one-by-one towards the unstacker head, and a mailpiece feed conveyor designed to convey the mailpieces in a stack and on edge against the unstacker plate. The unstacker plate has a stationary portion that extends from the unstacker head, and a moving portion that extends the stationary portion, said moving portion being mounted to pivot from the stationary portion between a first position in which the stationary portion and the moving portion are aligned with each other, and a second position in which the stationary portion and the moving portion are angularly offset relative to each other.

A device for reducing rotation of an article during singulation of a stack of articles is disclosed. The device may include a torsion element, a rotatable member configured to rotate about an elongated axis of the torsion element between a first position and a second position, and a revolving member coupled to the rotatable member. An outer surface of the revolving member contacts a drive belt in the first position and an article in the second position. The torsion element exerts torque on the rotatable member when it moves from the first position towards the second position. The torque causes the outer surface of the revolving member to apply a frictional force to the article, thereby minimizing rotation of the article. Systems and methods of singulating articles are also disclosed.

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 vacuum box for a vacuum belt conveyor system for conveying a veneer sheet is provided, the vacuum box comprises a housing having a top plate, wall plates, a bottom plate and end plates, wherein at least one opening is arranged between the bottom plate of the housing and each of the wall plates of the housing along a length of the vacuum box and wherein a shape of the bottom plate is such that edge areas of the bottom plate are further away from an imaginary plane on which the veneer sheet is conveyable than a middle area of the bottom plate. A vacuum belt conveyor system is also provided.

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 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.