A printing apparatus includes a printing head provided with a first nozzle row and a second nozzle row arranged shifted from the first nozzle row in a nozzle alignment direction, and a control unit configured to control ejection of ink from nozzles included in the printing head onto a medium based on print data. The control unit is configured to set an image to be complemented as a partial region of an image to be printed on the medium in accordance with a boundary portion between the first nozzle row and the second nozzle row, assign print data for printing the image to be completed to at least one of a first adjacent nozzle that is a nozzle in the first nozzle row and adjacent to the boundary portion and a second adjacent nozzle that is a nozzle in the second nozzle row and adjacent to the boundary portion, and complement the image to be complemented by ink ejection from at least one of the first adjacent nozzle and the second adjacent nozzle.

A cap for a printhead device including a main body that includes a side wall, a top wall, and a bottom wall, the top wall and the bottom wall in a facing relation to one another so that a printhead device is held between the top and bottom walls, a vent seal disposed within an opening in the top wall, a nozzle plate seal disposed within an opening in the bottom wall, and a nozzle plate seal retainer that holds the nozzle plate seal within the opening in the bottom wall.

An ink jet recording method is provided for recording an image by ejecting an ink from a recording head including a member defining an ejection orifice through which the ink is ejected, an ejection element configured to generate an energy used for ejecting the ink, and a first flow path communicating with a portion between the ejection orifice and the ejection element. The method includes ejecting an ink through the ejection orifice, and moving the ink from the first flow path to the portion between the ejection orifice and the ejection element separately from the ejecting of the ink. In this method, the ink is an aqueous ink containing a coloring material and a compound containing a chain hydrocarbon having a carbon number of 8 or more to 18 or less substituted by a hydroxy group or an anionic group.

A liquid ejecting head which includes a nozzle forming face onto which a nozzle portion from which liquid is ejected is formed to be open, in which a liquid repellent film including fluorine is formed on the nozzle forming face through a base film interposed therebetween, and a total thickness of the base film is 670 [nm] or less. In addition, a signal intensity of a molecular weight 301 in the liquid repellent film obtained by using a time-of-flight secondary ion mass analysis method is 0.00005 or more and 0.00020 or less, and is 0.00005 or more and 0.00015 or less, preferably.

A fluid ejection head assembly having improved assembly characteristics and methods of manufacturing a fluid ejection head assembly. The fluid ejection head includes a fluid supply body having at least one fluid supply port in a recessed area therein and a semiconductor chip attached in the recessed area of the fluid supply body adjacent the fluid supply port using a thermal cure adhesive. A compression prevention body having a coefficient of thermal expansion ranging from about 1.0 to less than about 30 microns/meter per ° C. disposed adjacent to the fluid supply port of the fluid supply body and the semiconductor chip.

A printing apparatus includes a discharging unit configured to discharge ink on a medium; a drive circuit configured to drive the discharging unit; a carriage configured to reciprocate in a scanning direction X while supporting the discharging unit and the drive circuit; and a blowing unit capable of blowing air toward the drive circuit supported on the carriage. The carriage includes a shielding member that partitions a discharging unit housing room from a drive circuit housing room. The discharging unit is disposed in the discharging unit housing room, and the drive circuit is disposed in the drive circuit housing room.

Embodiments of the invention relate to a method of indirect printing with an aqueous ink formulation applied to the surface of the intermediate transfer member. Related apparatus, systems and treatment formulations are disclosed herein.

A single pass inkjet printer that utilizes a modular printing system with one or more self-contained printing modules, where each printing module is easy to remove and replace from a large printing machine, thus resulting in an overall system that is easy to service and maintain Each module is a self-contained printer including an ink supply, printhead drive electronics, and printhead assembly in order to provide one color or fluid of inkjet printing capability. Each module includes a precise three-point compliant self-aligning mount system to obtain accurate printhead positioning, and a unique integrated printhead tending system that includes a compact movable vacuum knife for cleaning the printheads, and a printhead capping station for sealing and protecting the printheads from the ambient environment when not in use.

A liquid discharging head includes: a first common channel, a second common channel; and individual channels. The individual channels have: nozzles aligned in a first direction; pressure chambers; descenders formed in a channel substrate arranged between a nozzle plate and a pressure chamber plate in a second direction orthogonal to the first direction; and a connecting channel. The connecting channel has: a first channel part formed in the nozzle plate, and a second channel part formed in the channel substrate, connected to the first channel part and having a length in the second direction which is shorter than that of the second common channel. The second common channel is formed in the channel substrate, overlaps with the descenders in a third direction orthogonal to both of the first direction and the second direction, and is partitioned from the descenders by a partition wall formed by the channel substrate.

A liquid discharge head includes a head body, a cover, a rib, and a sealer. The head body discharges liquid. The head body includes a frame. The cover is mounted on the frame of the head body. The rib is disposed at the frame along a peripheral surface of the cover. The sealer is disposed between the peripheral surface of the cover and a peripheral surface of the rib.