An ink jet printing device for customized printing of images on a face of a sheet material includes a frame with a top surface defining a running plane for a face of the sheet material, with guides transverse to the running direction of the material, a printing unit that can move along the guides and has a printing head therein, a supply source supplying the printing head with printing ink, and a movement system driving the printing unit along the guides. The printing head faces the running plane for depositing the ink on the sheet material, and the supply source includes a secondary reservoir, mounted in the printing unit and in fluid connection with the head, and a main reservoir in fluid connection with the secondary reservoir for refilling the secondary reservoir and maintaining the level of ink above a predetermined threshold value, ensuring supply to the printing head.

An inkjet printer is provided that is configured to store a plurality of pieces of gap information respectively corresponding to a plurality of examined sections discretely arranged along a head moving direction on a recording sheet, each of the plurality of examined sections including a corresponding one portion of top portions and bottom portions on the recording sheet, and calculate interpolation gap information to be interpolated over a whole width in the head moving direction of at least one of a plurality of segments, each of which has a width in the head moving direction defined by two adjacent sections of the plurality of examined sections, based on the stored gap information.

An inkjet printer, including an inkjet head, a conveyer unit to convey a recording medium in a conveying direction, a position detecting unit to detect a position of the recording medium along the conveying direction, a wave shape generating mechanism to deform the recording medium into a predetermined wave shape along a direction orthogonal to the conveying direction, a gap information storing device to store gap information related to a gap between an ink discharging surface of the inkjet head and the recording medium, and a correcting device to correct the gap information according to a position of the recording medium along the conveying direction, is provided.

A printing apparatus including a transport guiding portion with high manufacturing yield, is provided. A printing apparatus includes a printing portion which is able to print on a medium, a transport portion which transports the medium, and a transport guiding portion on which a transport surface on which the medium is transported is formed and which has a plurality of bent portions, in which the transport guiding portion is provided with a first guiding member which has a bent portion and forms the transport surface on a transport direction upstream side of the medium and a second guiding member which has a bent portion and forms the transport surface on a transport direction downstream side of the medium.

A print media support assembly includes a print platen structure having a number of through holes for applying a vacuum from a bottom side to a surface of the print platen structure, and a number of sinkholes in the surface of the print platen structure, each sinkhole associated with at least one through hole for distributing a vacuum, applied via the through holes, across the surface of the print platen structure; the print platen structure supporting a print medium in a print zone; and at least one vacuum belt running across the surface of the print platen structure in a direction of print media advance, the belt overlapping with only part of the surface of the print platen structure to form at least one belt area and at least one non-belt area on the print platen structure; wherein at least one of the density and the size of the through holes and the distribution, the area and the shape of a footprint of the sinkholes is different between the belt area and the non-belt area.

An inkjet printing method with an inkjet printing device includes a vacuum belt having a set of air-channels connecting a top-surface and a bottom-surface of the vacuum belt. The set of air-channels couples an inkjet receiver to the vacuum belt by air suction in the set of air-channels, wherein the vacuum belt includes a dimple at the top-surface. The dimple has a closed bottom end, and the dimple is connected with an air-channel of the set of air-channels to form an air cup and to couple the inkjet receiver to the vacuum belt at the dimple by air suction.

The printing apparatus includes a medium support member including a support surface that supports a sheet of paper on which printing is to be performed, and a positioning member that positions the support surface of the medium support member. The positioning member is a plate-shaped member and is configured to position the support surface of the medium support member, with the medium support member contacting with an end face intersecting a plate surface of the positioning member.

An inkjet printer is described. The inkjet printer has a gas cushion substrate support having a metal support surface; a print assembly with a dispenser having ejection nozzles facing the support surface; a gas source fluidly coupled to the gas cushion substrate support by a gas conduit; and a thermal control system coupled to the gas conduit.

In a large format printer, a print head which includes a plurality of drive elements is provided with a head drive circuit which applies a voltage which is based on a first drive signal, a second drive signal, and a reference voltage signal which are input from a control circuit via a cable to the drive element. In a first flat cable and a second flat cable which configure the cable and which are in an overlapping state, a first wire which propagates a first drive signal is adjacent to a third wire which propagates a reference voltage signal, a second wire which propagates a second drive signal is adjacent to a third wire, and, in an overlapping direction, the first wire faces the third wire and the second wire faces the third wire.

A printer having a printhead configured to print to a print medium; a camera configured to photograph the print medium; a carriage configured to support and move the printhead and the camera; and a processor configured to print, by the printhead, on the print medium a first test pattern that is larger than an imaging area of the camera, photograph the first test pattern by the camera, and detect a printing defect based on a result of the photograph.