A printing apparatus includes a platen that supports a recording medium, a printing head that reciprocates along the platen, and discharges a droplet onto the recording medium supported by the platen at least in a forward route or a backward route of the reciprocation, to perform printing, and an air blowing unit disposed on at least one of two sides of the platen in a reciprocation direction, that is a direction in which the printing head moves along with the reciprocation, and blows an airflow to a nozzle surface of the printing head that reciprocates.

There is provided a liquid discharge apparatus including: a liquid discharge head, a carriage, a carriage moving mechanism, a carriage motor, an output unit outputting a discharge determination signal, and a controller configured to carry out a determination of whether or not a liquid is discharged normally from the nozzle, based on the discharge determination signal outputted from the output unit when the liquid discharge head carries out an inspection driving. If a first condition is satisfied, then after a carriage drive in order to move the carriage to a predetermined position, the inspection driving is performed. If a second condition other than the first condition is satisfied, then the inspection driving is performed without performing the carriage drive.

Various embodiments provide an ejection device for a fluid. The ejection device includes a first semiconductor wafer, housing, on a first side thereof, a piezoelectric actuator and an outlet channel for the fluid alongside the piezoelectric actuator; a second semiconductor wafer having, on a first side thereof, a recess and, on a second side thereof opposite to the first side, at least one inlet channel for said fluid fluidically coupled to the recess; and a dry-film coupled to a second side, opposite to the first side, of the first wafer. The first and the second wafers are coupled together so that the piezoelectric actuator and the outlet channel are set directly facing, and completely contained in, the recess that forms a reservoir for the fluid. The dry-film has an ejection nozzle.

A liquid ejecting apparatus includes a liquid ejecting unit having nozzles able to eject a liquid to a medium; a maintenance unit which performs maintenance of the liquid ejecting unit using a maintenance liquid; and a heating section which heats the maintenance liquid used for maintenance.

The printing apparatus (liquid discharging apparatus) is provided with a support section that supports a medium, a discharge section that discharges ink on the medium supported on the support section, and a transport unit that transports the medium in a transport direction. The support section includes a support structure including a liquid permeable portion that supports the medium and allows ink to pass therethrough, and a liquid holding portion that holds ink that has passed through the liquid permeable portion.

An ink-jet printer including a conveyor, a carriage, a recording head, a power supply, an ink receiver, a command receiver, and a controller, is provided. The controller executes the steps of: determining a discharge ink amount that should be discharged to the ink receiver; raising a drive voltage to a first voltage when the discharge ink amount is less than a first threshold value, and raising the drive voltage to a second voltage when the discharge ink amount is the first threshold value or more; performing a flushing process; based on the flushing process after having raised the drive voltage to the second voltage having finished in the case of having raised the drive voltage to the second voltage, stepping down the drive voltage from the second voltage to the first voltage; and based on the flushing process having finished and on the drive voltage being the first voltage, performing a printing process.

An aqueous ink set for ink jet including a combination of a first ink and a second ink. The first ink includes a self-dispersible pigment to a particle surface of which a functional group that includes a phosphonic acid group is bonded, wherein the redispersion viscosity of the first ink is 5 mPa.Math.s or less. The second ink includes an anionic dye, a lithium ion, and a sodium ion, wherein the total concentration of the lithium ion and the sodium ion in the second ink is 0.050 mol/L or more, and the proportion of the concentration of the lithium ion in the total concentration of the lithium ion and the sodium ion in the second ink is 45% or more to 85% or less.

A droplet discharging apparatus includes a recording head that includes pressure chambers, piezoelectric elements, and an in-head reservoir, provided near the pressure chambers; a liquid circulation unit that includes a liquid reservoir and circulates liquid between the in-head reservoir and the liquid reservoir; a drive waveform generation unit that generates a drive waveform that drives each of the piezoelectric elements; a remaining oscillation detection unit that detects remaining oscillation generated in at least one of the pressure chambers after driving the respective piezoelectric element; a status determining unit that determines a sedimentation status of a component in liquid in the in-head reservoir based on the detected remaining oscillation; and a control unit that controls a liquid circulation operation of the liquid circulation unit in order to dissolve the sedimentation status of the component in the liquid in the in-head reservoir based on the determined sedimentation status.

A liquid ejection apparatus is disclosed. One apparatus includes a nozzle through which fluid is ejected or purged, and a pressure regulating valve arranged upstream of the nozzle. The pressure regulating valve is configured to open in response to an open/close pressure differential of the fluid across the pressure regulating valve. The pressure regulating valve is configured to controllably regulate the open/close pressure differential. The apparatus further includes a controller configured to, when a suction pump is being operated to perform a first purging operation comprising creating a first negative pressure through suctioning by the suction pump to purge the fluid through the nozzle, control the pressure regulating valve to set the open/close pressure differential of the pressure regulating valve to a first value.

An inkjet printing apparatus, comprising: a recording head; an ink reservoir; an ink receiver; a first waste liquid reservoir comprising a first holding body; a second waste liquid reservoir comprising a second holding body; and a housing, wherein: the second waste liquid reservoir is movable between a first position where the first and second holding bodies contact and a second position; in a state where the second waste liquid reservoir is at the second position, the first holding body overlaps with the second holding body in an intersecting direction intersecting with a moving direction in which the second waste liquid reservoir moves; and in a state where the second waste liquid reservoir is disposed at the first position, the first and second holding bodies contact such that at least one of the first and second holding bodies elastically deforms to show an restoring force in the intersecting direction.