A liquid ejection head, including: a first head unit; a second head unit shifted with respect to the first head unit in both of a first direction in which nozzles of the head units are arranged and a second direction orthogonal to the first direction and disposed so as to overlap the first head unit in the second direction; and a first wiring member having flexibility and drawn from the second head unit in the second direction toward the first head unit, wherein the first wiring member includes a large-width portion on which a drive circuit is mounted and a small-width portion having a width in the first direction smaller than a width of the large-width portion in the first direction, and wherein the small-width portion passes through a space existing next to the first head unit in the first direction and extends in the second direction.

A print head (1) for depositing a liquid on a substrate comprises a layer structure including a stop layer (5) made of a dielectric material, an electrically conducting device layer (6), and an insulator layer (7) made of a dielectric material. A nozzle (3) is formed in the layer structure. The nozzle has a nozzle opening (34) for ejecting the liquid. A ring trench (31) is formed around the nozzle. The nozzle opening and the ring trench are radially separated by an annular nozzle wall (32). An ejection channel (37) is formed adjacent to the ring trench along the direction of ejection. An extraction electrode (8) is arranged on the insulator layer (7) and surrounds the nozzle.

A flow path structure which forms a flow path of liquid, includes: a light absorbing member (first substrate) having absorbing properties with respect to laser light; a light transmitting member (second substrate) which is joined to the light absorbing member and has transmitting properties with respect to the laser light; a first flow path (flow path) which is surrounded by a welding interface between the light absorbing member and the light transmitting member; and a second flow path which is formed in a flow path pipe (flow path pipe) which protrudes from a front surface opposite of the welding interface in the light transmitting member, and communicates with the first flow path, in which the flow path pipe is included in a region of the first flow path in a plan view from a direction orthogonal to the welding interface.

The invention relates to a 2K coating formulation that is printed using a valve jet printer.

There is provided a nozzle plate of an inkjet head, the nozzle plate including: a first surface that is bonded to an upper layer substrate by an adhesive; and a second surface in which an opening of a nozzle that ejects an ink is provided. A step is formed at an edge of the first surface.

An example method is described in which a property is measured associated with air flowing through a print gap between a print head and a printing substrate, the print head to eject a print fluid on the printing substrate; an ejection of print fluid is adjusted from the print head based on the measured property.

A liquid discharge head attachment device includes a liquid discharge head including a plurality of nozzles that discharges liquid. The liquid discharge head has a nozzle face mounting the nozzles and a side face being perpendicular to the nozzle face. An attachment member is attached with the liquid discharge head. A position adjuster contacts the side face of the liquid discharge head and adjusts a position of the liquid discharge head with respect to the attachment member. The position adjuster is disposed outboard from the nozzles of the liquid discharge head. The position adjuster overlaps the liquid discharge head in an orthogonal direction perpendicular to the nozzle face of the liquid discharge head in at least a part of the position adjuster.

A bonding substrate is provided with nozzle communication channels that establish communication between pressure chambers and nozzles. Each nozzle communication channel includes a pair of first inner wall surfaces constituting wall surfaces in a first direction, and a pair of second inner wall surfaces constituting wall surfaces in a second direction being orthogonal to the first direction. At least one of the second inner wall surfaces includes an inclined surface being inclined such that a length of the nozzle communication channel becomes gradually shorter toward the nozzle. An angle of the inclined surface relative to a liquid ejecting surface where the nozzles are opened is smaller than an angle of the first inner wall surface relative to the liquid ejecting surface.

One example provides a fluidic die including a nozzle layer disposed on a substrate, the nozzle layer having an upper surface opposite the substrate and including a plurality of nozzles formed therein, each nozzle including a fluid chamber and a nozzle orifice extending through the nozzle layer from the upper surface to the fluid chamber. A conductive trace is exposed to the upper surface of the nozzle layer and extends proximate to a portion of the nozzle orifices, an impedance of the conductive trace indicative of a surface condition of the upper surface of the nozzle layer.

A die for a printhead is provided in examples. The die includes a number of fluidic actuator arrays. A data block is associated with each of the plurality of fluidic actuator arrays. The die includes an interface comprising a data pad and a clock pad, wherein a data bit value present at the data pad is loaded into a first data block corresponding to a first fluidic actuator array on a rising clock edge and loaded into a second data block corresponding to a second fluidic actuator array on a falling clock edge.