Patent application number | Description | Published |
20090096835 | RECORDING HEAD - An inkjet recording head includes a substrate having a discharge port surface on which discharge ports configured to discharge a liquid are formed. The discharge port surface of the substrate includes a plurality of point-symmetrical continuous grooves which are centered around each discharge port. The plurality of point-symmetrical continuous grooves differs in shape between in a region near each discharge port and in another region. | 04-16-2009 |
20090128592 | INK JET PRINTING APPARATUS AND INK EJECTION CONTROL METHOD - In an ink jet printing apparatus, preliminary ejection for a print head involving a plurality of distances from a common ink supply port to respective ejection openings is optimized. Specifically, for a first nozzle array and a second nozzle array with different distances from the ink supply port to the ejection opening, the ratio of a driving pulse width to a lower limit pulse width for the second nozzle array with the longer distance is set to be higher than the ratio for the first nozzle array with the shorter distance. This enables a reduction in the time required for preliminary ejection of the apparatus as a whole. | 05-21-2009 |
20090128600 | INK JET RECORDING HEAD, INK JET CARTRIDGE WITH INK JET RECORDING HEAD, AND INK JET RECORDING APPARATUS - An ink jet recording head includes at least three nozzle array groups; each of the nozzle array group including, a first nozzle array including a plurality of ejection outlets for ejecting ink, and a second nozzle array including a plurality of ejection outlets for ejecting the ink, the second nozzle array being disposed adjacent to the first nozzle array with an ink supply port for supplying the ink interposed therebetween, wherein an opening area of the ejection outlets of second nozzle array is smaller than an opening area of the ejection outlets of first nozzle array, wherein the nozzle array groups eject three different kinds of inks, respectively, when the ink jet recording head moves relative to a recording material, wherein the nozzle arrays of adjacent ones of the nozzle array group are arranged in the order of the first nozzle array of one of the adjacent nozzle array groups, the second nozzle array of the one of the adjacent nozzle array groups, the second nozzle array of the other one of the adjacent nozzle array groups, and the first nozzle array of the other one of the adjacent nozzle array groups; and the recording head further including a third nozzle array provided in each of the adjacent ones of the nozzle array groups, the third nozzle array including a plurality of ejection outlets for ejecting the ink, wherein an opening area of the ejection outlets of third nozzle array is smaller than an opening area of the ejection outlets of second nozzle array, wherein the third nozzle array being disposed in the same side as the second nozzle array with respect to the ink supply port, and wherein the nozzle array group which does not constitute the adjacent nozzle array groups is supplied with the ink having a highest lightness among the three kinds of inks. | 05-21-2009 |
20090135226 | INK JET PRINT HEAD AND INK JET PRINTING APPARATUS - When paper dirt that could not be removed completely by the wiping gets trapped in the recessed portions formed in the ejection port face, the paper dirt may interfere with ejection ports, giving rise to a possibility of image impairments. To deal with this problem, the ejection ports and the recessed portions in the print head are shifted from each other so that their positions are not aligned in the wiping direction. | 05-28-2009 |
20090153620 | LIQUID EJECTION HEAD - A liquid ejection head includes a substrate having a supply port through which liquid is supplied and a plurality of energy generating elements provided along the supply port and generating energy for ejecting the liquid, a nozzle plate having nozzles provided therein in correspondence with the energy generating elements, and a channel provided between the substrate and the nozzle plate. The nozzle plate has a groove surrounding the channel. The groove includes a first groove provided in one surface of the nozzle plate at which the nozzle plate is bonded to the substrate, and a second groove provided in another surface of the nozzle plate in which the nozzles are provided. Edges of the first groove have sawtooth shape with a number of very small notches and edges of the second groove are substantially straight. | 06-18-2009 |
20090174741 | INK JET RECORDING HEAD AND INK JET RECORDING APPARATUS - An ink jet recording head includes a large nozzle array including a plurality of ejection outlets for ejecting ink; a small nozzle array including a plurality of ejection outlets each having an opening area smaller than an opening area of ejection outlets of the large nozzle array; wherein the ink jet recording head is mountable to an ink jet recording apparatus which is capable of causing the ink jet recording head to eject ink for a purpose of maintenance of ink jet recording head without image formation on a recording material, and wherein the large nozzle array is supplied with light ink consisting of yellow, light cyan or light magenta ink, and the small nozzle array is supplied with dark ink consisting of cyan, magenta or black ink, and wherein the number of ejections of the dark ink is larger than the number of ejections of the light ink. | 07-09-2009 |
20090201354 | LIQUID EJECTION HEAD - The present invention provides a liquid ejection head which includes a plurality of ejection ports | 08-13-2009 |
20090315945 | PRINT HEAD - A present invention improves the impact accuracy of ejected droplets, the quality of printed images, and print speed. A print head according to the present invention has an ink channel for which the width thereof in a direction orthogonal to an ink supply direction in which ink is supplied from an ink supply port to a pressure chamber is smaller than that of a pressure chamber. In the print head, the center of a heater along the ink supply direction is offset from the center of the pressure chamber along the ink supply direction, toward the side of the pressure chamber far from the ink supply port in the ink supply direction. | 12-24-2009 |
20100026762 | RECORDING HEAD - A recording head includes a substrate provided with a recording element that generates energy for ejecting liquid and electrical wiring that supplies power to the recording element; and a passage-forming member provided in contact with one face of the substrate and having a nozzle for ejecting the liquid and a passage for supplying the liquid to the nozzle. A groove formed by a through-hole provided in the passage-forming member is disposed such that a bottom face of the groove is located along and above the electrical wiring and positioned so as not to overlap an edge of the electrical wiring. | 02-04-2010 |
20100026766 | LIQUID JET RECORDING HEAD - A liquid jet recording head includes a substrate on which are formed recording elements that generate energy for ejecting liquid, and a flow passage forming member that is in contact with the substrate and in which are formed ejection ports that eject liquid and flow passages that supply liquid to the ejection ports. The flow passage forming member has a groove formed along the longitudinal direction of the flow passage forming member, and each end of the groove is located nearer to the middle in the width direction of the flow passage forming member than the other part of the groove is. | 02-04-2010 |
20100097425 | INKJET RECORDING HEAD AND INKJET RECORDING METHOD - An apparatus includes nozzles and an ink passage. Each nozzle includes a pressure chamber which houses an electrothermal transducer provided on a substrate to apply ejection energy to ink, an ink ejection orifice which faces the electrothermal transducer, and an ink passage along which the ink is supplied to the pressure chamber. The ink supply port is provided on the substrate and communicates with the ink passages. A distance between a center of gravity of the electrothermal transducer and the ink supply port differs between the nozzles which are next to each other. In at least one of the nozzles, a center of gravity of the ink ejection orifice is shifted from that of the electrothermal transducer in a direction toward the ink supply port by an amount which is increased as the distance increases. | 04-22-2010 |