A print module includes: a body housing first and second opposed printed circuit boards (PCBs), each of the first and second PCBs having heat-generating electronic components; an air inlet and an air outlet positioned towards an upper part of the body; an air pathway extending between the air inlet and the air outlet; a plurality of heatsinks, each heatsink being thermally coupled with one of the heat-generating components and having an array of cooling fins extending into the air pathway; and an inkjet printhead receiving power and print data from at least one of the first and second PCBs. The inkjet printhead is positioned toward a lower part of the print module.

Provided is a liquid ejecting device. An alternating current electric field generation unit includes a first electrode and a second electrode disposed adjacent to each other, a high-frequency voltage generation unit configured to generate a high-frequency voltage to the first electrode and the second electrode, and a conductor configured to electrically couple the first electrode and the second electrode to the high-frequency voltage generation unit. The first electrode and the second electrode face the support portion and are disposed downstream of the liquid ejecting head in a transport direction of the medium. A surface of the support portion facing the liquid ejecting head, the first electrode, and the second electrode is constituted by an insulating body.

A nozzle surface wiping device capable of using a plurality of types of wiping members in a state where discharge deterioration is suppressed regarding the respective wiping members is provided. In the nozzle surface wiping device that wipes a nozzle surface of a liquid discharge head with a wiping member to which a cleaning liquid is applied, information on cleaning liquid application conditions for applying respective saturated liquid amounts of the cleaning liquid to a plurality of types of wiping members, respectively, according to the types of the respective wiping members is held in advance. The type of a wiping member to be used for the wiping of the nozzle surface of the liquid discharge head is specified, and a saturated liquid amount of the cleaning liquid is applied to the wiping member according to the determined cleaning liquid application conditions corresponding to the type of the specified wiping member.

An ink jet head recording apparatus comprises an ink jet head that includes a nozzle plate having a plurality of nozzles, a plurality of pressure chambers on an interior side of the nozzle plate and in fluid communication with the plurality of nozzles, an ink supply passage and an ink return passage by which ink is circulated in an out of the pressure chambers, and a coating film formed on an exterior side of the nozzle plate, the coating film having multiple layers in a thickness direction thereof, each layer having liquid repelling regions and lyophilic regions.

A liquid ejecting apparatus includes: a first liquid ejecting head having a first wiping surface oriented in a first direction; a second liquid ejecting head disposed in a second direction orthogonal to the first direction with respect to the first liquid ejecting head and having a second wiping surface; and a wiping member. A third direction is orthogonal to the first and second directions; a fourth direction is vertical to the first direction and intersects the second and third directions. The first and second liquid ejecting heads are arranged with a gap between the first and second wiping surfaces. The gap includes a first gap extending in the fourth direction. The first wiping surface has a first region that protrudes toward the second liquid ejecting head beyond an imaginary line extending in the fourth direction so as to overlap the first gap.

A method of wiping a plurality of printheads positioned in a staggered overlapping arrangement across a width of a media feed path, each printhead having a respective wiper associated therewith. The wipers for neighboring printheads are moved in opposite directions with respect to each other.

An inkjet printing apparatus, comprising: a carriage to move in a 1st direction; a recording head; an ink reservoir; an ink receiver; and a waste liquid reservoir configured to be connected to the ink receiver to let the ink move between the ink receiver and the waste liquid reservoir, wherein: the ink reservoir is disposed not to overlap with the carriage in a 2nd direction perpendicularly intersecting with the 1st direction and an up and down direction, and at least a part of the ink reservoir is disposed at a position outside of a moving range of the carriage in the 1st direction; and in the 1st direction, the waste liquid reservoir is disposed to overlap with the ink reservoir and is disposed at a position outside of the moving range of the carriage.

In various examples, a fluid ejection die, or a device such as a printhead or printbar on which the fluid ejection device is installed, may include a sensor that detects mechanical force imposed by a system in which the fluid ejection die is installed. There also may be memory, as well as a logic operably coupled with the sensor and the memory. The logic may extract information from a signal raised by the sensor and store the information in the memory. The information may have been encoded into the signal via mechanical interaction between a component of the system and the sensor. The mechanical interaction may have been modulated by the system to encode the information.

A pressure adjusting device includes a housing with a cylinder. A piston moves within the cylinder in an axial direction. A pulse motor is fixed to the housing. A switch provided on a surface of the cylinder is actuated by movement of the piston in the cylinder in the axial direction. The switch includes a fixed contact point and a moveable contact point. The piston presses the movable contact point to abut against the fixed contact point when the piston moves from a position other than the initial position to the initial position so that the movable contact point electrically contacts the fixed contact point.

A printer includes: a platen; a printhead assembly having an inkjet printhead operatively positioned opposite the platen; a feed mechanism for feeding a web of print media over the platen and along a printing feed path; and a diverter configured for periodically diverting a portion of the web towards the printhead assembly and along a maintenance feed path. The portion of the web diverted along the maintenance feed path wipes part of the printhead assembly and removes condensation.