Abstract: A continuous inkjet printer (5) having a printhead (7) that includes first and second ink droplet generators (8, 9), each operable to generate a stream (10) of ink droplets, and a common gutter (11) arranged to receive unprinted ink droplets from the first and second ink droplet generators (8, 9), the printer (5) further including control means configured to determine receipt into the common gutter (11) of ink droplets from the first and second ink droplet generators (8, 9), wherein the control means are operable to use a single sensor (17) to determine receipt into the common gutter (11) of ink droplets from one, both, or neither of the first and second ink droplet generators (8, 9).

Abstract: The invention discloses various methods of controlling or monitoring the performance of a continuous inkjet printer based on monitoring vacuum levels and/or noise in the gutter line.

Abstract: A continuous inkjet printer (5) having a printhead (7) that includes first and second ink droplet generators (8, 9), each operable to generate a stream (10) of ink droplets, and a common gutter (11) arranged to receive unprinted ink droplets from the first and second ink droplet generators (8, 9), the printer (5) further including control means configured to determine receipt into the common gutter (11) of ink droplets from the first and second ink droplet generators (8, 9), wherein the control means are operable to use a single sensor (17) to determine receipt into the common gutter (11) of ink droplets from one, both, or neither of the first and second ink droplet generators (8, 9).

Abstract: The invention provides a method of adding solvent or make-up fluid into the gutter line of a continuous ink printer. During the addition of solvent, the vacuum level in the gutter line is monitored and maintained at a level sufficient to ensure that vacuum is maintained at the gutter. Vacuum level in the gutter line is preferably controlled by controlling the speed of a variable speed gutter pump. Noise in the gutter line is preferably used as a control over pump speed.

Abstract: The invention discloses various methods of controlling or monitoring the performance of a continuous inkjet printer based on monitoring vacuum levels and/or noise in the gutter line.

Abstract: The invention provides a method of adding solvent or make-up fluid into the gutter line of a continuous ink printer. During the addition of solvent, the vacuum level in the gutter line is monitored and maintained at a level sufficient to ensure that vacuum is maintained at the gutter. Vacuum level in the gutter line is preferably controlled by controlling the speed of a variable speed gutter pump. Noise in the gutter line is preferably used as a control over pump speed.

Abstract: A fully active retard feeder is configured to move a partially feed sheet back into a feed tray in response to a jam either in the nip of the feed head or in a location downstream of the feed head and thereby ease user jam clearance.

Abstract: Apparatuses for feeding sheets and printing apparatuses are provided.

Abstract: A sheet stacking tray assembly may include a tray having a lead edge surface, a tray exit ramp having a first end and a second end, and a feeder having a feeder edge. The first end of the tray exit ramp may be configured to connect to the lead edge surface. The tray exit ramp may be convex relative to the lead edge surface and may extend beyond the lead edge surface. The tray exit ramp may include one or more first anti-stub surfaces, that may be configured to be positioned below a lead edge of a sheet in a sheet stack. The feeder edge of the feeder may include one or more second anti-stub surfaces that are complementary to the first anti-stub surfaces. The feeder edge may be configured to interconnect with the second end of the tray exit ramp to form a transition surface.

Abstract: A sheet stacking tray assembly may include a tray having a lead surface and an elevate plate. The lead surface may include one or more first geometric protuberances. At least one edge of the elevate plate may include one or more second geometric protuberances that are complimentary to the first geometric protuberances. The lead surface may be configured to interlock with the edge of the elevate plate to form a support area for one or more sheets.

Abstract: Apparatuses for feeding sheets and printing apparatuses are provided.

Abstract: A sheet stacking tray assembly may include a tray having a lead surface and an elevate plate. The lead surface may include one or more first geometric protuberances. At least one edge of the elevate plate may include one or more second geometric protuberances that are complimentary to the first geometric protuberances. The lead surface may be configured to interlock with the edge of the elevate plate to form a support area for one or more sheets.

Abstract: A sheet stacking tray assembly may include a tray having a lead edge surface, a tray exit ramp having a first end and a second end, and a feeder having a feeder edge. The first end of the tray exit ramp may be configured to connect to the lead edge surface. The tray exit ramp may be convex relative to the lead edge surface and may extend beyond the lead edge surface. The tray exit ramp may include one or more first anti-stub surfaces, that may be configured to be positioned below a lead edge of a sheet in a sheet stack. The feeder edge of the feeder may include one or more second anti-stub surfaces that are complementary to the first anti-stub surfaces. The feeder edge may be configured to interconnect with the second end of the tray exit ramp to form a transition surface.