Abstract: A liquid ejecting apparatus includes a liquid ejecting unit that ejects liquid, and a plurality of pumps each supplying the liquid toward the liquid ejecting unit by repeating a sucking state and a discharging state. When one of the pumps is in the discharging state and a storage amount of the liquid stored in the pump chamber of the one pump becomes equal to a threshold, another of the pumps is switched to the discharging state. A value obtained by adding an inflow of the liquid flowed into the pump chamber of the other pump to an ejection amount of the liquid ejected from the liquid ejecting unit is defined as a discharge amount of the liquid discharged from the pump chamber of the one pump during a period of the discharging state.

Abstract: A printing control device is for a printing unit that is capable of adjusting a gap g between a recording head and a platen and performs main scanning to move the recording head in the main scanning direction with respect to the print substrate and sub-scanning to move the print substrate in a sub-scanning direction relative to the recording head. The printing control device includes a sub-scanning control unit that controls sub-scanning so that a first sub-scanning distance in a case in which the gap g is a first gap is shorter than a second sub-scanning distance in a case in which the gap g is a second gap broader than the first gap, in the sub scanning which corresponds to pseudo-band printing scheme and which is sub-scanning of a longer distance than a pitch of the nozzles of the nozzle line in the sub-scanning direction.

Abstract: A continuous ink jet print head, including: a droplet generator (32, 32?, 32?) for generating ink droplets (64); a charging electrode (22, 22?, 22?) having a passageway (74, 74?, 74?) through which the ink droplets travel to receive a charge; a deflection electrode (60, 60?, 60?) for deflecting the charged ink droplets; a gutter (50, 50?, 50?, 50??) having a gutter entrance (52, 52?, 52?, 52??); wherein the passageway is aligned with the gutter entrance through which uncharged droplets enter; and a mounting deck (10, 10?, 10?) configured to secure the gutter entrance into a fixed, nonadjustable gutter entrance position (56, 56?, 56?, 56??) and to secure the charging electrode into a fixed, nonadjustable charging electrode position (24, 24?, 24?) relative to the gutter entrance.

Abstract: An ejection port includes a first ejection port that is an opening portion formed on an outer surface side of a recessed portion formed in an outer surface of a nozzle plate, a second ejection port positioned on a bottom surface side of the recessed portion, the second ejection port including an opening portion that is smaller than the first ejection port, and a plurality of protrusions that extend from an outer edge portion of the first ejection port towards a center portion of the second ejection port through the second ejection port, in which a distance between tip portions of the plurality of protrusions and the substrate is larger than a distance between an outer edge portion of the second ejection port and the substrate.

Abstract: A method of creating a test pattern including a plurality of ruled lines for measuring an impact displacement in a main scanning direction includes creating the test pattern such that the test pattern includes at least three parts arranged in a sub-scanning direction of the printing apparatus, the at least three parts being selected from parts for measuring an impact displacement due to head displacement, chip displacement, round-trip displacement, column displacement, and/or position displacement.

Abstract: A drop-on-demand printing method comprising performing the following steps in a printing head: discharging a first primary drop (x21A) of a first liquid to move along a first path; discharging a second primary drop (x21B) of a second liquid to move along a second path; controlling the flight of the first primary drop (x21A) and the second primary drop (x21B) to combine the first primary drop with the second primary drop into a combined drop (x22) at a connection point (x32) within a reaction chamber within the printing head so that a chemical reaction is initiated within a controlled environment of the reaction chamber between the first liquid of the first primary drop and the second liquid of the second primary drop; and controlling the flight of the combined drop (x22) through the reaction chamber along a combined drop path such that the combined drop (x22), during movement along the combined drop path starting from the connection point is distanced from the elements of the printing head.

Abstract: A liquid ejection head includes an ejection opening; a passage in which an energy generation element is disposed; an ejection opening portion that allows communication between the ejection opening and the passage; a supply passage for allowing the liquid to flow into the passage; and an outflow passage for allowing the liquid to flow out to the outside. An expression of H?0.34×P?0.66×W>1.7 is satisfied when a height of the passage is set to H, a length of the ejection opening portion is set to P, and a length of the ejection opening portion is set to W.

Abstract: A liquid ejection apparatus is disclosed. One apparatus includes a piezoelectric element. The piezoelectric element includes an upper electrode and a lower electrode. The lower electrode has a partial overlapping portion and a non-overlapping portion. The partial overlapping portion at least partially overlaps the pressure chamber. The partial overlapping portion of the lower electrode has two ends in the transverse direction. The upper electrode has two ends in the transverse direction. A distance from the center of the pressure chamber in the transverse direction to one of the two ends of the upper electrode in the transverse direction is smaller than a distance from the center of the pressure chamber in the transverse direction to a corresponding one of the two ends of the partial overlapping portion in the transverse direction.

Abstract: A liquid supplying device includes a tank; and a cartridge configured to be attached to the tank and having a first storage chamber configured to store liquid. The cartridge is formed with a communicating opening in communication with the first storage chamber. The tank has a second storage chamber configured to store the liquid, a liquid passage, a gas passage, a joint, an outer wall, an inner wall, an air communication portion, and a narrow-width portion. The liquid passage is in communication with the second storage chamber and has a first vertical portion. The gas passage has a second vertical portion. The first vertical portion, the second vertical portion, and the air communication portion are arranged in this order in the first direction and a direction away from the fifth end portion.

Abstract: There are provided a liquid jet head and a liquid jet recording device each capable of appropriately cutting off the liquid column formed immediately after being jetted from the jet hole to prevent the satellite droplet from generating, and further achieving easier maintenance of the jet hole part. The liquid jet head includes a drive actuator, a jet hole plate, and a flow channel operating actuator. The drive actuator applies a pressure variation to a liquid filled therein. The jet hole plate is disposed on a downstream side of the drive actuator and adapted to jet the liquid having flown out from the drive actuator from the jet hole to the outside of the drive actuator.

Abstract: A printing apparatus including a discharge unit, a movement unit and an adjustment unit. The discharge unit discharges ink and penetration liquid onto one side of the recording medium. The penetration liquid promotes penetration of the ink into the other side of the recording medium. The movement unit moves the discharge unit and the recording medium relative to each other. The adjustment unit adjusts a discharge amount of the penetration liquid discharged from the discharge unit onto the recording medium based on at least a relative movement speed of the discharge unit to the recording medium.

Abstract: A waste liquid container includes a waste liquid vessel having a mounting face, a first side face, and a bottom face that are outer surfaces intersecting each other, a waste liquid inlet disposed on the mounting face, a circuit board having a connection terminal disposed along the first side face, and a first recess portion that opens in the mounting face and the bottom face below the waste liquid inlet. In the waste liquid container, when a width direction is defined as a direction in which both the mounting face and the bottom face extend, the first recess portion is disposed at a position between the waste liquid inlet and the connection terminal in the width direction.

Abstract: According to an example, a fluid ejection device may include a fluid feed slot, a plurality of fluid ejection chambers in fluid communication with the fluid feed slot, a plurality of drop ejecting elements, in which a drop ejecting element of the plurality of drop ejecting elements is positioned within each of the plurality of fluid ejection chambers, a fluid circulation channel in fluid communication at a first end of the fluid circulation channel with the fluid feed slot and in fluid communication at multiple second ends of the fluid circulation channel with the plurality of fluid ejection chambers, and a fluid circulating element within the fluid circulation channel. The fluid ejection device may also include a bubble dissipating structure positioned within the fluid circulation channel outside of the plurality of fluid ejection chambers.

Abstract: An inkjet printing device includes an ink containing a silver particle and water; and an ink discharging head including multiple nozzles to discharge the ink, individual liquid chambers communicating with the multiple nozzles, a common liquid chamber to supply the ink to the individual liquid chambers, a circulating flow path communicating with the individual liquid chambers, a common circulating liquid chamber communicating with the circulating flow path, and a pressure generator to apply a pressure to the ink in the individual liquid chambers, wherein the proportion of the silver particle to the ink is from 1 to 15 percent by mass.

Abstract: The present disclosure relates to an ink jetting apparatus and a printing system including the same, the ink jetting apparatus including a liquid droplet generating unit configured to generate liquid droplets and jet the generated liquid droplets, a guide channel unit having a channel to guide the jetted liquid droplets and control evaporation of the liquid droplets, and being configured to protect the liquid droplets from thermal and physical disturbance; and a nozzle unit configured to discharge the liquid droplets that passed through the guide channel unit towards a substrate.

Abstract: A liquid ejection head includes a substrate, a piezoelectric element above the substrate, an orifice forming member above the substrate on the piezoelectric-element-provided-side, in which the orifice forming member has an ejection orifice for ejecting liquid and defines a pressure chamber between the orifice forming member and the substrate, and the pressure chamber communicates with the ejection orifice and includes the piezoelectric element therein, a first thin film provided between the substrate and piezoelectric element and defining a space between the first film and the substrate, and a second thin film on the piezoelectric element on the side opposite to the first film side and differing from the first film in rigidity. A communicating port is formed in the substrate in a region facing the space, communicates with the space through an opening having a smaller area than the area of the region, and is closed at an end.

Abstract: An actuator device includes: an actuator including a first contact; and a wire member including a second contact connected to the first contact with a conductive adhesive including a conductive particle. One of the first contact and the second contact is a particular contact. The other of the first contact and the second contact is a specific contact. At least two protrusions and at least one recess are formed on and in the particular contact. The at least two protrusions are arranged in a first direction. The at least one recess is interposed between the at least two protrusions. The particular contact is joined to the specific contact with the conductive adhesive provided in the at least one recess, in a state in which each of the at least two protrusions is in contact with the specific contact.

Abstract: A sub-scanning distance in a case in which a gap between a recording head and a platen is broader than a second gap broader a first gap is lengthened more than a sub-scanning distance in a case in which the gap is the first gap more when sub-scanning which is sub-scanning of a longer distance than a pitch of nozzles of a nozzle line in a sub-scanning direction is performed. A sub-scanning distance in a case in which the record density of a print image of a specific print region is second record density higher than first record density may also be lengthened more than a sub-scanning distance in a case in which the record density is the first record density when the sub-scanning which is the sub-scanning of the longer distance than the pitch of the nozzles of the nozzle line in the sub-scanning direction is performed.

Abstract: An ink jet head includes a substrate having a pressure chamber formed therein, the pressure chamber being in communication with a nozzle through which ink is to be discharged, a first plate that is deformable to change a volume of the pressure chamber, and a second plate between the first plate and the pressure chamber, that stretches in response to an electric signal applied thereto. The second plate contracts in an in-plane direction to cause the first plate to deform and thereby the volume of the pressure chamber to be enlarged, when the electric signal is applied, and the second plate returns to an original shape thereof to cause the first plate to return to an original shape thereof and thereby the volume of the pressure chamber to return to an original volume thereof, when the electric signal is no longer applied.

Abstract: In an embodiment of this invention, a carriage includes a first lever that is operated by an operator to attach or detach a printhead and rotates about a first rotating shaft. The carriage also includes a second lever that rotates about a second rotating shaft parallel to the first rotating shaft and, if the printhead is attached, contacts part of the printhead and presses the printhead in accordance with the rotation. The carriage further includes a spring having one end hung on an end portion of the second lever and the other end hung on part of the carriage. If the printhead is attached, the press force of the spring acts to press the printhead against the carriage in accordance with the rotation of the first lever. If the printhead is detached, no press force acts.