A holder assembly that holds a head module including an inkjet head on a mounting table, the holder assembly including a pressure member and an operation member. The pressure member presses a portion of the head module adjacent to the mounting table. The operation member transitions the pressure member from a first state to a second state when work of mounting the head module on the mounting table is performed. In the first state, the pressing by the pressure member is deactivated, and in the second state, the pressing by the pressure member is activated. The operation member exists outside an enveloping surface of the head module during the work of mounting the head module on the mounting table.

There is provided an ink jet recording apparatus that can correct bending of an ink jet head with a compact structure. First supporting frames 122 that support ink jet heads 110C, 110M, 110Y, and 110K and second supporting frames 170 that support a part of ink supply sections supplying ink to the ink jet heads 110C, 110M, 110Y, and 110K are mounted on a mount 300. The first supporting frames 122 are mounted on the mount 300 while both end portions of the first supporting frames 122 in a longitudinal direction are supported. Each of the second supporting frames 170 is provided with a bending correction mechanism 340 that applies a pressing force to the first supporting frame 122 to correct the bending of the first supporting frame 122.

An adjustment mechanism is structured to adjust and fix a liquid discharge head in position on a base plate. The adjustment mechanism includes a first plate, a second plate, a pivotable cam, and a first biasing unit. The first plate is changeable in position in a circumferential direction relative to the base plate. The first plate is fixed to the base plate. The second plate is mounted on the first plate movably relative to the first plate in a direction different from the circumferential direction. The liquid discharge head is fixed to the second plate. A first biasing unit biases the second plate toward the pivotable cam in a horizontal direction to prevent the second plate from lifting upward off the first plate. The pivotable cam is operable to move the second plate against an biasing force of the first biasing unit and to locate the second plate.

A print head assembly comprises a print head unit, a cooling duct, and a blower arranged to pass a gaseous cooling medium through the cooling duct.

The cooling duct has an elongated closed hollow cross-section bounded on at least one side by a flat wall. The print head unit is attached to the flat wall outside of the cooling duct such that the print head unit is cooled by the gaseous medium passing through the cooling duct via thermal contact through the flat wall of the cooling duct.

A liquid ejecting head unit that ejects a liquid from a nozzle, the liquid ejecting head unit including a driving portion that includes an ejection surface on which a plurality of nozzles that eject the liquid are formed; a fixing plate to which a plurality of the driving portions are fixed, and a holder that (Condition 1) is fixed to a support body, which supports the liquid ejecting head unit, and the holder has a conductive property that electrically connects the support body and the fixing plate to one another, or that (Condition 2) includes a portion that projects from the fixing plate in a direction orthogonal to the ejection surface, and houses the plurality of driving portions.

Systems and methods for pre-aligning print head(s) to alignment adapter(s) to increase print resolution of printed matter, and to reduce offline time of a printing system due to print head alignment, include the use of an alignment adapter to which a print head is pre-aligned and which includes precision alignment features which precisely engage cooperating precision alignment features on the print head carriage mounting plate of the print head carriage. Print head(s) can be pre-aligned and fine-tuned to alignment adapter(s) even while the printing system is still in print production. Pre-aligned print head/alignment adapter assemblies can then be quickly mounted on the print head carriage using the cooperating precision alignment features of the adapter and print head carriage mounting plate. Duplicate sets of print head mounting sockets can include print heads aligned at different relative offsets (e.g., half a pixel) to increase the print resolution.

A print-head module for a single-pass inkjet printer contains a housing component with a transverse bracket which extends in the X-direction and on which a number of print heads are arranged which are adjusted positionally with respect to at least one reference position. A load-bearing frame with a supporting device is provided for supporting the load-bearing frame. The housing component is mounted on the load-bearing frame such that it swings about a pendulum axis. Furthermore, a single-pass inkjet printer has at least one print-head module of this type. The inkjet printer contains a frame construction with a support, on which the at least one print-head module is placed by use of the supporting device.

In one example, a multi-part flow structure with multiple flow passages includes a first part sandwiched between a second part and a third part, the parts joined together with adhesive along bonding surfaces surrounding the flow passages where each of the bonding surfaces on one part is symmetrical to and diverges from a corresponding one of the bonding surfaces on another part.

In one example in accordance with the present disclosure, an alignment cover for a fluidic ejection device is described. The alignment cover includes a substrate to affix to the fluidic ejection device. At least one alignment feature is disposed on the substrate and mates with corresponding guide features on an alignment post of a carriage. The at least one alignment feature removably couples the fluidic ejection device to the carriage. The alignment cover also includes at least one engagement feature disposed on the substrate. The at least one engagement feature interfaces with the alignment post to reduce relative motion of the fluidic ejection device relative to the carriage.

A printing apparatus includes a printing head configured to eject photocurable ink onto a medium, an irradiation portion configured to perform light irradiation of the medium, a mounting portion mounted with the irradiation portion and the printing head in the order from the irradiation portion to the printing head along a first direction, and a driving portion configured to move the mounting portion between a standby position where the printing head stands by and a stop position in the first direction with respect to the standby position. The stop position is a position where the irradiation portion faces the medium.