Patent application number | Description | Published |
20080231658 | PATTERN FORMING METHOD, LIQUID DROPLET DISCHARGING APPARATUS, AND ELECTROOPTICAL DEVICE - A pattern forming method forms a pattern on a substrate by relatively moving a plurality of nozzle groups each including a plurality of nozzles arranged in a first direction and the substrate a plurality of times in a main-scanning direction to allow the nozzles to discharge liquid droplets thereon. The method includes (i) relatively moving each nozzle group and the substrate in a sub-scanning direction such that a rear end of a former nozzle group overlaps a front end of a latter nozzle group when viewed from the main-scanning direction after every relative movement between the nozzle group and the substrate in the main-scanning direction; (ii) selecting a plurality of former nozzles among the nozzles of the former group that overlap those of the latter group to allow the selected former nozzles to discharge liquid droplets upon the relative movement between the former group and the substrate in the main-scanning direction; and (iii) selecting a plurality of latter nozzles positioned between the selected former nozzles among the nozzles of the latter group that overlap those of the former group to allow the selected latter nozzles to discharge liquid droplets upon the relative movement between the latter group and the substrate in the main-scanning direction. | 09-25-2008 |
20090068343 | COMPOSITION FOR FORMING ALIGNMENT FILM AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DEVICE - A composition for forming an alignment film used during formation of an alignment film with a droplet discharge method includes a solute, a first organic solvent and a second organic solvent. The solute includes an alignment film formation material. The first organic solvent dissolves the solute. The second organic solvent is for controlling surface tension. The second organic solvent has an alkyl end group. | 03-12-2009 |
20090068345 | COMPOSITION FOR FORMING ALIGNMENT FILM, AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DEVICE - A composition for forming an alignment film used during formation of an alignment film with a droplet discharge method includes a solute, a first organic solvent and a second organic solvent. The solute includes an alignment film formation material. The first organic solvent dissolves the solute. The second organic solvent is for controlling surface tension. The first organic solvent includes a solvent having a lowest vapor pressure among all of solvent components in the composition. | 03-12-2009 |
20090092761 | DISCHARGE METHOD, CONTINUOUS FILM FORMATION METHOD, ALIGNMENT FILM FORMATION METHOD, METHOD FOR FORMING LIQUID CRYSTAL DISPLAY DEVICE, HEAD UNIT, DROPLET DISCHARGE DEVICE, AND ELECTRONIC APPARATUS - A discharge method is provided for discharging a fluid from nozzle sets having nozzles arrayed between first and second end portions. The method includes classifying each of the nozzle sets into one of a first nozzle group having a distribution characteristic in which a discharge quantity at the second end portion is greater than the discharge quantity at the first end portion, a second nozzle group having the distribution characteristic in which the discharge quantity at the first end portion is greater than the discharge quantity at the second end portion, and a third nozzle group having the distribution characteristic in which the discharge quantity at the first end portion is substantially the same as the discharge quantity at the second end portion. The method also includes forming a nozzle formation including the nozzle sets classified as the first nozzle group, the second nozzle group and/or the third nozzle group. | 04-09-2009 |
20100055559 | BATTERY AND METHOD FOR PRODUCING SAME - A battery includes a base member and a plurality of films arranged adjacent to each other on a same surface of the base member, at least a part of one of the films being overlapped with an adjacent one of the films. | 03-04-2010 |
20100225720 | DRAWING DEVICE - A drawing device includes a carriage, a base configured and arranged to mount a substrate, and a movement device configured and arranged to move the substrate and the carriage relative to each other in a first direction and a second direction intersecting the first direction. The carriage includes a plurality of types of droplet ejection head units and a plurality of ink-curing light irradiation sections. The droplet ejection head units are configured and arranged to respectively eject a plurality of types of photo-curing inks onto the substrate with the droplet ejection head units being aligned along a direction intersecting the second direction at a predetermined pitch. The ink-curing light irradiation sections are respectively disposed in positions adjacent to both sides of each of the droplet ejection head units in the second direction, and configured and arranged to cure the photo-curing inks. | 09-09-2010 |
20100233930 | MANUFACTURING METHODS OF TOUCH PANEL, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A manufacturing method of a touch panel having a plurality of first electrodes and a plurality of second electrodes which are formed on one surface of a substrate and extend in directions crossing each other, includes: forming the second electrodes so as to be separated at intersections between the first and second electrodes on the substrate; forming the first electrodes at the intersections on the substrate; forming an insulating film at least on the first electrodes at the intersections using a printing method; and forming bridge wirings that connect the second electrodes separated at the intersections to each other over the insulating film using the printing method, wherein forming partition walls for partitioning at least a part of a profile shape of the insulating film is performed prior to the forming of the insulating film. | 09-16-2010 |
20110063782 | CONDUCTIVE FILM STACKED MEMBER, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - A conductive film stacked member includes: a first conductive film formed on a substrate; and a second conductive film formed on the first conductive film, wherein the width of the second conductive film is narrower than the width of the first conductive film, and the second conductive film has a surface convexly curved in the direction away from the first conductive film in a cross-sectional view. | 03-17-2011 |
20110215506 | MOLDING METHOD AND MOLDING APPARATUS - A molding method includes: drawing cross-section elements of a three-dimensional object as a molding target on a drawing surface of a drawing stand with a liquid whose curing is precipitated by receiving activation energy as cross-section patterns; applying the activation energy to the liquid configuring the cross-section patterns in a state in which the cross-section patterns is pinched between the drawing stand and a molding stand; and detaching the cross-section patterns after being applied with the activation energy from the drawing stand and transferring the cross-section patterns to the molding stand side, wherein the drawing surface has a liquid repellent area that is an area representing liquid repellency for the liquid and a lyophilic area that is independently formed in an island shape within the liquid repellent area and is an area representing lyophillicity stronger than that of the liquid repellent area for the liquid. | 09-08-2011 |
20110291326 | SHAPING SLURRY AND SHAPING METHOD - A shaping slurry that forms a shaped product with a granule includes: a water-based solvent; a hydrophobic granule that forms the shaped product; and an amphiphatic solid polymer that forms the shaped product, and is dissolved in the water-based solvent. | 12-01-2011 |
20130217823 | SHAPING SLURRY AND SHAPING METHOD - A shaping slurry that forms a shaped product with a granule includes: a water-based solvent; a hydrophobic granule that forms the shaped product; and an amphiphatic solid polymer that forms the shaped product, and is dissolved in the water-based solvent. | 08-22-2013 |
20140167325 | MOLDING METHOD AND MOLDING APPARATUS - A molding method includes drawing cross-section elements of a three-dimensional object as a molding target on a drawing surface of a drawing stand with a liquid whose curing is precipitated by receiving activation energy as cross-section patterns; applying the activation energy to the liquid configuring the cross-section patterns in a state in which the cross-section patterns is pinched between the drawing stand and a molding stand; and detaching the cross-section patterns after being applied with the activation energy from the drawing stand and transferring the cross-section patterns to the molding stand side, wherein the drawing surface has a liquid repellent area that is an area representing liquid repellency for the liquid and a lyophilic area that is independently formed in an island shape within the liquid repellent area and is an area representing lyophillicity stronger than that of the liquid repellent area for the liquid. | 06-19-2014 |