An inkjet recording apparatus for curing ink ejected onto a base material and forming recorded matter on the base material is provided. The inkjet recording apparatus includes an ejection unit configured to eject the ink onto a first area of the base material and a second area surrounded by the first area, a curing unit configured to cure the ink ejected onto the base material, and a control unit configured to control the curing unit in such a way that a time from ink ejection onto the first area to ink curing is longer than a time from ink ejection onto the second area to ink curing.

A device (20) for measuring the flow rate and the viscosity of ink sent to a print head (50) of an ink jet printer, comprising: a conduit (200), for supplying the print head (50), this conduit being provided with a 1.sup.st pressure (Pin) sensor (26) at a first end and a 2.sup.nd pressure (PHead) sensor (56) at a 2.sup.nd end, circuit or controller (26, 56) for measuring at least the pressure (PHead) of the 2.sup.nd pressure sensor (56) and the pressure difference (Pin−PHead) between the 1.sup.st pressure sensor (26) and the 2.sup.nd pressure sensor (56).

A device (20) for measuring the flow rate of ink sent to a print head of an ink jet printer, comprising: a restriction (22) of the diameter of the flow of ink, arranged in the path thereof, sensors (26, 28) for measuring the pressure difference (P.sub.in−P.sub.out), between the pressure of fluid upstream of the restriction (P.sub.in) and the pressure of ink downstream of the restriction (P.sub.out).

The invention relates to a method for controlling the ink quality of an ink jet printer, during printing, the printer comprising at least one ink reservoir (11) and a solvent or diluted ink reservoir (12), a print head (50) and a supply circuit for sending ink and/or solvent to the print head, method in which: a correction volume of solvent, or diluted ink, to add to the ink to compensate a variation in viscosity of the latter is estimated; and a plurality of elementary quantities of solvent, or diluted ink, separated by ink, is sent to the print head, each of a volume comprised between 0.1 cm.sup.3 and 5 cm.sup.3, the sum of the elementary quantities of solvent, or diluted ink, being substantially equal to the correction volume to add.

A fluidic dispensing device includes a housing having an exterior wall and a chamber. The exterior wall has a chip mounting surface defining a first plane and has an opening. The chamber has a port coupled in fluid communication with the opening. An ejection chip is mounted to the chip mounting surface and is oriented along the first plane, and is in fluid communication with the opening. The ejection chip has a fluid ejection direction that is substantially orthogonal to the first plane. A stir bar is located in the chamber, and has a rotational axis. The rotational axis of the stir bar is oriented in an angular range of perpendicular, plus or minus 45 degrees, relative to the fluid ejection direction.

The liquid ejection apparatus includes a circulation unit configured to circulate a liquid along a circulation passage extending from a liquid supply source to the liquid supply source through a liquid ejection head. Further, the liquid ejection apparatus includes a deaeration unit configured to perform a deaeration operation of decreasing a dissolved gas amount of the liquid, a recovery unit configured to recover ejection performance of an ejection opening, and a control unit configured to control an operation of driving the circulation unit and the deaeration unit. The control unit starts the deaeration operation and circulates the liquid having been deaerated by the deaeration operation inside a circulation path after the recovery operation and before an initial printing operation after the recovery operation.

The liquid ejection apparatus includes a circulation unit configured to circulate a liquid along a circulation passage extending from a liquid supply source to the liquid supply source through a liquid ejection head. Further, the liquid ejection apparatus includes a deaeration unit configured to perform a deaeration operation of decreasing a dissolved gas amount of the liquid, a recovery unit configured to recover ejection performance of an ejection opening, and a control unit configured to control an operation of driving the circulation unit and the deaeration unit. The control unit starts the deaeration operation and circulates the liquid having been deaerated by the deaeration operation inside a circulation path after the recovery operation and before an initial printing operation after the recovery operation.

An inkjet printing apparatus includes a printhead, a subtank for storing ink to be supplied to the printhead, a maintank for storing ink to be supplied to the subtank, a valve that can be switched between an open state in which the printhead communicates with the subtank and a closed state in which the printhead does not communicate with the subtank, a cap for covering an discharging port surface of the printhead, a pump for generating a negative pressure in an inside of the cap with the cap covering the discharging port surface, and an internal pressure changing member for changing an internal pressure of the subtank to perform a subtank filling operation in which ink is supplied from maintank to the subtank.

A logic circuitry package for a replaceable print apparatus component comprises an interface to communicate with a print apparatus logic circuit, and at least one logic circuit. The logic circuit may be configured to identify, from a command stream received from the print apparatus, parameters including a class parameter, and/or identify, from the command stream, a read request, and output, via the interface, a count value in response to a read request, the count value based on identified received parameters.

The image formation device includes a tank, a hollow member, and a sensor. The tank is configured to store ink. The hollow member is disposed inside the tank, and extends in an up-down direction. The sensor is disposed outside the tank and above the hollow member, and is configured to detect a pressure inside the hollow member.