Techniques for handling and reducing ink overspray of an ink jet printer are provided. In an example, an ink overspray collector for an ink jet printer can include a first opening defining a first print area of the ink jet printer, and a frame about the first opening. The frame is configured to receive overspray from operation of the ink jet printer and can be formed of a woven material. In some examples, a controller of the ink jet printer can reduce an amount of ink ejected near the edges of the print media to reduce overspray.

A card mechanism used in an array with other card mechanisms. Each card mechanism handles plastic cards that are to be personalized and provided to end users. The plastic cards can be cards such as financial cards including credit and debit cards, identification cards, driver's licenses, and other plastic cards that are personalized. The card mechanism(s) can supply cards to be personalized in one or more other card mechanisms and/or in a card personalization machine used with the card mechanism(s) in which case the card mechanism(s) is configured as a card input hopper, collect cards that have been personalized in which case the card mechanism is configured as a card output hopper, and/or perform one or more personalization operations on the cards in which case the card mechanism is configured as a card personalization mechanism.

The envelope printer is adapted for use with envelopes. The envelope printer is a printer that is customized for printing envelopes. The envelope printer comprises a feed tray, an output tray and a printer. The feed tray and the output tray are attached to the printer. The feed tray is a first bin that is designed specifically to hold envelopes. The printer will draw blank envelopes from the feed tray for printing. The output tray is a second bin that is designed specifically to receive envelopes from the printer. The printer is a specially designed printer that is optimized for processing and directly printing on envelopes.

The envelope printer is adapted for use with envelopes. The envelope printer is a printer that is customized for printing envelopes. The envelope printer comprises a feed tray, an output tray and a printer. The feed tray and the output tray are attached to the printer. The feed tray is a first bin that is designed specifically to hold envelopes. The printer will draw blank envelopes from the feed tray for printing. The output tray is a second bin that is designed specifically to receive envelopes from the printer. The printer is a specially designed printer that is optimized for processing and directly printing on envelopes.

Inkjet printing on a plastic card using a radiation curable ink is described herein. After the ink is applied to the card surface (i.e. the printed surface), radiation, such as UV radiation, is directed onto a non-printed surface of the card (for example, a perimeter side edge surface and/or a surface of the plastic card opposite the printed surface the radiation curable ink is applied to) in order to at least partially cure any of the applied ink that may have flowed onto or that may otherwise be disposed on the non-printed surface. This prevents contamination of a drive mechanism used to transport the plastic card via the perimeter side edge surfaces or via the opposite surface prior to full curing of the ink applied to the printed surface.

A thermal head for a thermal transfer machine is provided to transfer a film onto a card. The thermal head may include a frame intended to be secured to the machine. The thermal head may also include a heating bar mounted on the frame, intended to create heat and having a heating surface designed to diffuse said heat towards the outside. The thermal head may yet also include a pad produced from a flexible material and fixed removably against the heating surface so as to be placed between the heating surface and the film.

Card processing mechanisms and methods whereby after a card has been processed on one surface thereof at a card processing station such as, but not limited to, a card printing mechanism, the card can be recirculated back upstream of the card processing station along a return card travel path that is separate from the primary card travel path through the card processing station where the card can then be reintroduced back into the primary card travel path and transported through the card processing station a second time. As the card is being returned along the return card travel path, the card can be flipped over so that when the card is transported back through the card processing station, the opposite surface of the card can be processed.

Card processing mechanisms and methods whereby after a card has been processed on one surface thereof at a card processing station such as, but not limited to, a card printing mechanism, the card can be recirculated back upstream of the card processing station along a return card travel path that is separate from the primary card travel path through the card processing station where the card can then be reintroduced back into the primary card travel path and transported through the card processing station a second time. As the card is being returned along the return card travel path, the card can be flipped over so that when the card is transported back through the card processing station, the opposite surface of the card can be processed.

An apparatus for printing on one or both sides of flat objects. The apparatus includes a loop-shaped conveying path for the flat objects; a feed conveyor configured to feed the objects to be printed into a first section of the conveying path; a printer configured to print the objects one at a time; a first discharge conveyor configured to discharge the objects to be printed one at a time downstream of the printer from the first section towards a second section; a first collector configured to collect the objects downstream of the first discharge conveyor at the second section discharged from the first discharge conveyor in a stack; a stack conveyor configured to convey a (partial) stack of the objects along the second section; and a second collector configured to receive at least one (partial) stack and feed the objects upstream to the printer into the first section.

A media transport system includes a belt with a plurality of rows of holes, a vacuum plenum, and a shutter. The belt is positioned over the vacuum plenum carries a plurality of media over the vacuum plenum. A row of holes in the belt includes inter-copy gaps that separate media on the belt and the inter-copy gaps include no holes in the belt. The shutter includes a solid member that prevents a flow of air between the vacuum plenum and a portion of the belt positioned above the first shutter and a first aperture formed through the solid member that is aligned with the row of holes in the belt.