Patent application number | Description | Published |
20100003773 | METHOD FOR MANUFACTURING LIQUID DISCHARGE HEAD - A method for manufacturing a liquid discharge head provided with a substrate which has a layer made of silicon nitride and with a discharge port forming member which is disposed above the layer made of silicon nitride and has a discharge port for discharging liquid. The method includes providing a photosensitive layer that is to be the discharge port forming member above the layer made of silicon nitride, and forming the discharge port by exposing the photosensitive layer to i-line. The layer made of silicon nitride has a refractive index of 2.05 or more to light of a wavelength of 633 nm and irradiation with the i-line is performed in the exposure. | 01-07-2010 |
20100102473 | METHOD OF MANUFACTURING LIQUID DISCHARGE HEAD - A method of manufacturing a liquid discharge head including a flow path member for forming a flow path communicating with a discharge port discharging a liquid forms a mold of the flow path made of a positive photosensitive resin on a substrate; applies a coated layer on the mold for forming the flow path member, which coated layer includes a solvent, an epoxy resin, and a curing agent of the epoxy resin; removes the solvent from the coated layer at a normal temperature under substantially 1 atm. so that the weight of the coated layer may become 93% or less of that of the coated layer at a time of the applying of the coated layer, and then further removes the solvent from the coated layer under a depressurized condition; cures the coated layer; and removes the mold to form the flow path. | 04-29-2010 |
20100212159 | LIQUID DISCHARGE HEAD AND MANUFACTURING METHOD THEREOF - An object of the invention is to provide a method of manufacturing a liquid discharge head in which a distance from a discharge opening and an energy generating element is uniform, simply and with good precision. | 08-26-2010 |
20100321446 | LIQUID DISCHARGE RECORDING HEAD - A liquid discharge recording head comprising a plurality of recording element boards for discharging black ink and color ink, by which image quality of color ink is improved without decreasing image quality of black ink. The liquid discharge recording head including: a first recording element board including a first discharge aperture for discharging liquid; a second recording element board including a second discharge aperture, the second discharge aperture being smaller than the first discharge aperture; and a support member including a face for supporting the first recording element board and the second recording element board. A distance from the face of the support member to the second discharge aperture is longer than a distance from the face of the support member to the first discharge aperture. | 12-23-2010 |
20110107598 | LIQUID EJECTION HEAD AND METHOD FOR MANUFACTURING LIQUID EJECTION HEAD - A liquid ejection head and a method of forming the same. The liquid ejection head includes a substrate, an ejection port, a liquid channel, and a supply port. The substrate has, above one side thereof, an energy generating element configured to generate energy used to eject liquid. The ejection port, from which a liquid is ejected, is located at a position corresponding to the energy generating element. The liquid channel communicates with the ejection port and penetrates the substrate from the one side to another side of the substrate. The supply port communicates with the liquid channel. The substrate has a projecting layer extending inward of an inner peripheral portion of an opening in the supply port in the one side, and the projecting layer and the energy generating element are formed of the same material. | 05-12-2011 |
20120206535 | METHOD FOR MANUFACTURING LIQUID DISCHARGE HEAD - A method for manufacturing a liquid discharge head provided with a substrate which has a layer made of silicon nitride and with a discharge port forming member which is disposed above the layer made of silicon nitride and has a discharge port for discharging liquid. The method includes providing a photosensitive layer that is to be the discharge port forming member above the layer made of silicon nitride, and forming the discharge port by exposing the photosensitive layer to i-line. The layer made of silicon nitride has a refractive index of 2.05 or more to light of a wavelength of 633 nm and irradiation with the i-line is performed in the exposure. | 08-16-2012 |
20130206723 | METHOD OF MANUFACTURING LIQUID EJECTION HEAD AND METHOD OF PROCESSING SUBSTRATE - A liquid ejection head includes a substrate having an ejection energy generating element formed at a first surface side thereof, a common liquid chamber formed at a second surface of the substrate, and a liquid supply port extending from the bottom of the common liquid chamber to the first surface. The liquid ejection head is manufactured by preparing a substrate having the common liquid chamber formed at the second surface side, then arranging a material to be filled in the common liquid chamber, subsequently forming an aperture in the filled material as corresponding to the liquid supply port to be formed, and thereafter forming the liquid supply port by reactive ion etching, using at least the filled material as a mask. | 08-15-2013 |
20140096385 | METHOD FOR PRODUCING LIQUID-EJECTION HEAD - A method for producing a liquid-ejection head includes the steps of: forming molds on or above a substrate, the molds being used as molding members for forming liquid chambers; forming a flow-passage-forming member by depositing an inorganic material on or above the substrate and the molds by chemical vapor deposition, the flow-passage-forming member having depressed portions each formed in an area between an adjacent pair of liquid-chamber side walls in which the molds are not formed; forming a photosensitive resin layer by depositing a photosensitive resin on the flow-passage-forming member and in the depressed portions; forming filling members in the depressed portions by grinding the photosensitive resin layer until the upper surface of an orifice plate is exposed; after grinding the photosensitive resin layer, forming ejection ports in the flow-passage-forming member; and, after forming the ejection ports, removing the molds. | 04-10-2014 |