Patent application number | Description | Published |
20080252698 | INK JET RECORDING HEAD - An ink jet recording head includes a element substrate; a plurality of ejection outlets, provided on the element substrate, for ejecting ink in a direction perpendicular to the element substrate; and a nozzle formation member having a plurality of ink flow paths which are in fluid communication with the ejection outlets, respectively; wherein the ink flow paths are arranged at a density higher than 1200 dpi in an arranging direction of the ejection outlets; wherein widths of flow passage walls forming the ink flow paths are smaller than heights of the ink flow paths and are smaller than widths of the ink flow paths. | 10-16-2008 |
20090046123 | INKJET RECORDING APPARATUS AND METHOD OF CONTROLLING THE APPARATUS - Wiping is performed every time when a predetermined period elapses. With the wiping performed step by step, a density of ink in liquid remaining on a discharge port surface is diluted, and becomes a predetermined density or lower. Accordingly, a condition can be maintained, in which the ink can be reliably discharged from a recording head when a recording operation is newly started, although the wiping is not additionally performed after the above wiping. In this case, even when the recording operation is started again or the recording operation is newly started after the several wiping operations, an amount of cleaning liquid used in the several times of wiping is proper to an intermission period. Thus, the cleaning liquid can be prevented from being wastefully consumed. | 02-19-2009 |
20090058949 | LIQUID EJECTION HEAD, INKJET PRINTING APPARATUS AND LIQUID EJECTING METHOD - Provided are a printing head and an inkjet printing apparatus, which eject liquid droplets without leaving behind any bubble in each nozzle, thus having an enhanced durability. An ejection port of the printing head includes a first ejection port part communicating with the atmosphere and a second ejection port part having a cross-section orthogonal to an ejection direction being larger than a cross-section of the first ejection port part orthogonal to the ejection direction, and being formed between the energy effect chamber and the first ejection port part. In addition, the second ejection port part is formed to be eccentric to an electrothermal transducing element in an ink supply direction in which ink is supplied from an ink supplying port to the bubbling chamber. | 03-05-2009 |
20090147045 | INK JET APPARATUS - An ink jet recording apparatus includes a recording head having an ink ejection surface; a blade for wiping the ink ejection surface; blade cleaning means for cleaning the blade by collecting contamination liquid deposited on the blade and including at least ink; cleaning liquid supplying means for supplying, to the blade, cleaning liquid mainly comprising liquid having a volatility lower than the ink; a residual ink absorbing material provided at such a position that it is out of contact to the blade; and a discharge path for discharging the contamination ink collected by the blade cleaning means to the residual ink absorbing material. | 06-11-2009 |
20090147050 | LIQUID EJECTING HEAD AND MANUFACTURING DIMENSION CONTROL METHOD - A liquid ejecting head includes a substrate, a nozzle forming member for forming on a principal surface of the substrate a nozzle comprising a flow passage of liquid and an orifice for ejecting the liquid, and a dummy pattern. The dummy pattern has substantially the same dimension as at least a part of the nozzle and is formed so that a cross section of the dummy pattern is exposed at an end surface of the nozzle forming member. | 06-11-2009 |
20090147056 | INKJET PRINT HEAD - The landing precision of ink drops is improved to improve the image quality and increase the printing speed. An inkjet print head ejects ink supplied from an ink supply port from a plurality of ejection ports respectively connecting to ink paths having different flow resistances by using energy generated by a plurality of electrothermal transducer elements respectively corresponding to the plurality of the ejection ports, wherein each of the plurality of the ejection ports connected to the ink paths having a low ink flow resistance is arranged so that the center of each of the plurality of the ejection ports is positioned farther away from the ink supply port to the center of the corresponding electrothermal transducer element than each of the plurality of the ejection ports connected to the ink paths having a high ink flow resistance. | 06-11-2009 |
20090201343 | LIQUID EJECTION HEAD AND MANUFACTURING METHOD OF LIQUID EJECTION HEAD - The present invention provides a liquid ejection head for which the peeling of an orifice plate from a substrate seldom occurs, even in a structure such that the walls that define each energy application chamber are narrowed toward a ejection port. The walls that define a first pressure chamber are inclined inward within the first pressure chamber, so that the first pressure chamber is narrowed, toward an ejection port, along a direction perpendicular to the heater formation face on which heaters are arranged. Further, the walls that define each ink flow path are inclined in the ink ejection direction. Furthermore, the angle at which the walls that define the ink flow path are inclined relative to the ink ejection direction is smaller than the angle at which the walls that define the first pressure chamber are inclined inward, within the first pressure chamber. | 08-13-2009 |
20090274840 | INK JET INK, INK SET, INK JET RECORDING METHOD, INK CARTRIDGE, RECORDING UNIT AND INK JET RECORDING APPARATUS - An ink to be applied to a recording head having a common liquid chamber, pressure chambers developing pressure applied to the liquid, individual channels through which the liquid is introduced into the pressure chambers from the common liquid chamber, and a group of nozzles which communicate with the pressure chambers and eject the liquid, where first nozzles having short individual channels and second nozzles having long ones are alternately arranged at arrangement intervals of less than 30 μm along one side or sides of the common liquid chamber, contains an aqueous medium, a surfactant and a coloring material. The aqueous medium consists of water and a water-soluble organic compound containing at least one alkanediol and has a surface tension of from 40 mN/m or more to less than 60 mN/m in an environment of temperature 25° C. and humidity 50%. | 11-05-2009 |
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 |
20100045719 | INK JET PRINT HEAD, INK JET PRINTING APPARATUS AND INK JET PRINTING METHOD - While the print head is reduced in size, the adverse effect of air flows produced by ink droplets as they are ejected from a small number of ejection opening arrays is minimized. A small number of first ejection opening arrays eject one of three primary colors—cyan, magenta and yellow—, and a large number of second and third ejection opening arrays eject the remaining two primary colors. A fourth ejection opening array, disposed between the first ejection opening array and second or third ejection opening array. | 02-25-2010 |
20100315466 | INKJET PRINTING APPARATUS - An inkjet printing apparatus is provided which can print images with no print quality variations. For this purpose, the fluid viscosity resistances between the print head and the print medium beneath respective nozzle arrays that occur as the print head moves in the forward direction are made equal to those that occur as the print head moves in the backward direction. | 12-16-2010 |
20110074884 | INKJET HEAD - To provide an inkjet head which includes high-density nozzle rows and which does not easily cause an ejection failure due to adhesion of ink mist around ejection orifices when a high-density image of a secondary color is printed with a small number of paths. An inkjet head includes at least two or more types of nozzle rows that eject different amounts of ink. When A is the cross section, with respect to an ink supplying direction, of an ink supply path from each ejection orifice to a supply port and L is the length of the ink supply path, the value of A/L differs between the two or more types of nozzle rows. The nozzle row of which the value of A/L is small is disposed outside an area between the nozzle rows that eject a largest amount of ink and that are arranged next to each other. | 03-31-2011 |
20110254898 | LIQUID DISCHARGE HEAD AND METHOD FOR MANUFACTURING THE SAME - A liquid discharge head includes an electric contact electrically connected with a liquid discharge device; a first semiconductor substrate having an energy generation element for generating energy to discharge a liquid, and a driver unit including a first transistor and configured to drive the energy generation element; and a second semiconductor substrate having a receiving unit configured to possess a second transistor and receive a signal serially transmitted via the electric contact, and an expansion unit configured to possess a third transistor and parallel-convert the signal received in the receiving unit to generate a signal to control the driver unit, wherein a gate oxide film in the first transistor is thicker than a gate oxide film in the second transistor and a gate oxide film in the third transistor. | 10-20-2011 |
20120162318 | LIQUID DISCHARGE HEAD - A liquid discharge head includes first and second element substrates including: a discharge port array; energy generating elements; and electric contacts electrically connected to the energy generating elements and including first and second electric contacts disposed linearly along one end and the other end. The first and second element substrates are configured such that a distance between the gravity center of the first electric contact and that of a discharge port provided at an end of the discharge port array on the first electric contacts side is different from a distance between the gravity center of the second electric contact and that of a discharge port provided at an end of the discharge port array on the second electric contacts side. The first electric contacts of the first element substrate and the second electric contacts of the second element substrates are disposed linearly, and vice versa. | 06-28-2012 |
20130152391 | MANUFACTURING METHOD OF LIQUID DISCHARGE HEAD - This invention is a manufacturing method of a liquid discharge head that includes a substrate having a plurality of discharge energy generating elements that generate energy that is utilized for discharging a liquid, and a discharge port forming member that constitutes a discharge port group including a plurality of discharge ports that discharge the liquid and flow paths that communicate with the discharge port group. The manufacturing method includes (1) disposing a photosensitive resin as material of the discharge port forming member on or above the substrate, and (2) forming an exposure pattern of the discharge port group using ultraviolet light in the photosensitive resin. In the aforementioned (2), the discharge port group is divided in a longitudinal direction and exposed, and the exposures are respectively performed so that regions in which there is a high degree of telecentricity face each other. | 06-20-2013 |
20130222489 | LIQUID EJECTION HEAD AND RECORDING APPARATUS - A liquid ejection head is constructed by providing a recording element substrate on a supporting member. The recording element substrate has at least one thermal energy generating element and a liquid supply port for supplying liquid to the element. The supporting member has three or more supply flow paths running there through. Two or more beams are formed in each of the supply flow paths. The gap between the beams formed in each of the end supply flow paths is greater than the gap between the beams formed in an inside supply from path. | 08-29-2013 |
20130286091 | LIQUID EJECTION HEAD AND RECORDING APPARATUS - A liquid ejection head includes a substrate that carries thereon a plurality of ejection energy generating elements arranged in rows to generate energy necessary for ejecting liquid and an ejection port plate that is laid on the substrate and has a plurality of ejection ports formed therein and arranged vis-a-vis the respective ejection energy generating elements. The ejection port plate has a groove, or an oblong recess, formed on the surface thereof where the plurality of ejection ports are formed such that the groove surrounds the region where the ejection ports are formed and has a corrugated inner lateral surface and a flat outer lateral surface arranged oppositely relative to the inner lateral surface. | 10-31-2013 |
20130286096 | LIQUID DISCHARGE HEAD AND LIQUID DISCHARGE APPARATUS USING THE SAME - A liquid discharge head includes: a substrate including an element that generates energy to discharge liquid and a liquid supply port; a flow path forming member on the substrate which forms a space therebetween with the substrate and has a discharge port therein, the space constituting a pressure chamber, and a flow path causing the pressure chamber and the liquid supply port to communicate; an interlayer provided between the substrate and the flow path forming member; and a protection layer including metal for protection, wherein the interlayer is disposed so as to avoid a first region corresponding to the element, a second region corresponding to a region of the flow path on a pressure chamber side, and a portion corresponding to a boundary between the first region and the second region, and wherein at least apart of the portion is covered with the protection layer. | 10-31-2013 |
20130286099 | LIQUID EJECTING HEAD, METHOD OF MANUFACTURING LIQUID EJECTING HEAD, AND LIQUID EJECTION PRINTING APPARATUS - The liquid ejecting head includes a printing element board having a plurality of printing elements for producing energy used to eject liquid, a contact board having a contact terminal for electrically connecting to a liquid ejection printing apparatus, and a functional element, a plurality of lands which are provided on the face of the contact board where the functional element is mounted, and to which terminals of the functional element are connected, a wiring member that connects the printing element board to the contact board, a first terminal and a second terminal disposed on one edge of the contact board, a first wiring connecting the contact terminal to the first terminal, a second wiring connecting at least one of the plurality of lands to the second terminal, and insulating resin that covers the edge face of the second terminal positioned on the one edge of the contact board. | 10-31-2013 |
20130300802 | INK JET INK, INK SET, INK JET RECORDING METHOD, INK CARTRIDGE, RECORDING UNIT AND INK JET RECORDING APPRATUS - An ink to be applied to a recording head having a common liquid chamber, pressure chambers developing pressure applied to the liquid, individual channels through which the liquid is introduced into the pressure chambers from the common liquid chamber, and a group of nozzles which communicate with the pressure chambers and eject the liquid, where first nozzles having short individual channels and second nozzles having long ones are alternately arranged at arrangement intervals of less than 30 μm along one side or sides of the common liquid chamber, contains an aqueous medium, a surfactant and a coloring material. The aqueous medium consists of water and a water-soluble organic compound containing at least one alkanediol and has a surface tension of from 40 mN/m or more to less than 60 mN/m in an environment of temperature 25° C. and humidity 50%. | 11-14-2013 |
20140152725 | PRINTING APPARATUS AND AGING METHOD - An embodiment of this invention is directed to preventing a decrease in the number of media printable with ink in an ink tank owing to an increase in waste ink in aging processing, and an increase in aging processing time. According to the embodiment, aging processing is executed as follows in a printing apparatus in which a printhead including a plurality of nozzles and a nozzle array formed from these nozzles and discharge ink is reciprocally scanned in a direction different from the direction of the nozzle array, and an image is printed by forward printing and backward printing. The aging processing is performed by changing the count at which the aging processing is performed, between nozzles at the edge side portion of the nozzle array and nozzles at the center side portion of the nozzle array. | 06-05-2014 |
20140184701 | LIQUID DISCHARGING HEAD - A liquid discharging head is configured including an element substrate and a flow path forming substrate which are joined. The element substrate includes a plurality of energy generating elements (electrothermal conversion elements) configured to generate thermal energy, and a supply port configured to supply liquid. The flow path forming substrate includes a plurality of discharging ports, a bubble generating chamber formed so as to include an energy generating element, and a supply path which connects the bubble generating chamber and the supply port. The upstream side of the discharging port in the direction of liquid flowing from the supply path to the bubble generating chamber, as viewed from a planar view, is formed in a semicircular shape, and the downstream side is formed in a semi-polygonal shape. | 07-03-2014 |
20140198157 | PROCESS FOR PRODUCING CHIP - A process for producing a chip in which plural ejection orifice arrays are arranged including conducting reduction projection exposure plural times to a wafer having a substrate and a photosensitive resin layer formed thereon while relatively moving positions of the wafer and a reticle to form ejection orifice array patterns in the resin layer, developing the patterns to form ejection orifice arrays in the resin layer, and dividing the wafer to form plural chips in which the plural ejection orifice arrays are arranged. The exposure is conducted once to form in the resin layer a first ejection orifice array pattern corresponding to partial ejection orifice arrays in an arranging direction thereof in one chip, a second ejection orifice array pattern corresponding to all ejection orifice arrays in one chip and a third ejection orifice array pattern corresponding to partial ejection orifice arrays in an arranging direction thereof in one chip. | 07-17-2014 |
20140199633 | PROCESS FOR PRODUCING LIQUID EJECTION HEAD - A process for producing a liquid ejection head by providing, in one chip, a liquid ejection head having a portion for ejection in which an ejection orifice array is arranged and a side portion having no ejection orifice array, these portions being provided with a member of a photosensitive material, arranging the chip on a common substrate in such a chip array that these two portions are alternately arranged, and separating each chip from the substrate, the process including the steps of relatively moving a reticle of an aligner along the chip array for a photosensitive material on the substrate to expose each chip, and developing the material to obtain the member. A first reticle for forming the portion for ejection and a second reticle for forming only the side portion are used. The exposure includes a first and a second exposure treatment respectively by the first and second reticles. | 07-17-2014 |