TORAY ENGINEERING CO., LTD. Patent applications |
Patent application number | Title | Published |
20160111708 | CONTROL SYSTEM AND CONTROL METHOD - The surface profile of a coating material in a substrate width direction is optimized in coating a substrate with the coating material such as an electrode active material. A gap adjuster configured to adjust a gap between a nozzle for ejecting a coating material and a substrate to be coated with the coating material, a rotation speed adjuster configured to adjust a rotation speed of a pump for pressure-feeding the coating material to the nozzle, a model calculator configured to calculate a surface profile of the coating material based on an end region model and a central region model wherein the end region model models profiles of rising regions in the surface profile of the coating material in a width direction of the substrate and the central region model models a profile of a central region between the rising regions in the surface profile, a comparator configured to compare a predetermined set profile with the surface profile of the coating material calculated by the model calculator, and a control calculator configured to calculate a control amount of at least one of the gap adjuster and the rotation speed adjuster based on a comparison result of the comparator are included. | 04-21-2016 |
20150027531 | SILICON-CONTAINING FILM AND METHOD FOR FORMING SILICON-CONTAINING FILM - A silicon-containing film includes a first chemical vapor deposition layer and a second chemical vapor deposition layer. The first chemical vapor deposition layer includes elemental silicon. The first chemical vapor deposition layer is formed by a plasma CVD method such that oxygen concentration is greater than or equal to 0% by element and less than 10% by element. The second chemical vapor deposition layer includes elemental silicon. The second chemical vapor deposition layer is formed by the plasma CVD method such that oxygen concentration is greater than 35% by element and less than or equal to 70% by element. A ratio of the thickness of the second chemical vapor deposition layer relative to the thickness of the first chemical vapor deposition layer is 1.5-9. | 01-29-2015 |
20140353016 | CIRCUIT SUBSTRATE AND METHOD OF FORMING CIRCUIT PATTERN - With a nozzle being moved in one direction to a substrate unit, conductive ink is discharged out of a slit of the nozzle in a belt-like manner to the substrate unit. The conductive ink is discharged in a belt-like manner to the substrate unit on which a liquid-repellent region having a liquid repellency to the conductive ink and a lyophilic region having a lyophilic property to the conductive ink and having the same form as a desired circuit pattern are formed. Thereby, the conductive ink is applied to the lyophilic region, while the conductive ink is repelled at the remaining liquid-repellent region and flows into the lyophilic region. This allows for easier formation of the circuit pattern. | 12-04-2014 |
20140004650 | SOLAR CELL MODULE MANUFACTURING APPARATUS AND SOLAR CELL MODULE MANUFACTURING METHOD | 01-02-2014 |
20130263912 | SOLAR CELL MODULE AND MANUFACTURING METHOD THEREOF - A solar cell module includes a plurality of solar cells arranged next to one another in a first direction orthogonal to a second direction. The solar cells each include a lower conductive layer, an upper conductive layer, and a power generating layer. Adjacent solar cells include edge portions overlapped and electrically connected with each other. Each of the solar cells further includes end processed regions at both ends thereof and a main power generating region in a middle portion thereof. The end processed regions prevent a short-circuit between the upper conductive layer and the lower conductive layer. The main power generating region performs photoelectric conversion. The edge portion of one of the adjacent solar cells overlaps from above with the edge portion of the other one of the adjacent solar cells within a range of the main power generating region of the other one of the adjacent solar cells. | 10-10-2013 |
20120267809 | APPARATUS AND METHOD FOR PRODUCTION OF LIPOSOMES - Disclosed are: an apparatus which enables the easy production of liposomes having uniform particle diameters; and others. Specifically disclosed is a liposome production apparatus comprising: a microtube having a flow path through which a lipid-dissolved solution comprising at least one lipid, water and a water-miscible organic solvent can pass; a housing section in which the microtube is accommodated; and a cooling means for cooling the dissolved solution contained in the microtube in the housing section to a temperature at which liposomes can be produced. The apparatus enables the production of liposomes having uniform particle diameters. | 10-25-2012 |
20120204933 | SOLAR CELL MODULE - In order to provide a see-through solar cell module in which the manufacturing costs can be reduced and transmittance can be readily modified without modifying the manufacturing steps, there is provided a solar cell module comprising solar cells in which are layered a conductive substrate, and a lower electrode layer, a photoelectric conversion layer, and an upper electrode layer in the stated order on the conductive substrate; the solar cell module having a configuration in which a plurality of through-openings that pass through the conductive substrate to the upper electrode layer in the layering direction is formed over the entire surface of the solar cells. | 08-16-2012 |
20120103252 | CONVEYANCE DEVICE FOR BASE MATERIAL HAVING BOTH SURFACES COATED WITH COATING SOLUTION - A double-sided coated substrate transport device ( | 05-03-2012 |
20120085407 | SOLAR BATTERY - A solar battery module has a structure in which a solar battery cell formed by a transparent electrode, a power generating element, and a back electrode is formed on a substrate, and it is sealed with a resin material such as EVA. However, there has been a problem that water enters from a gap between the substrate and a resin sealing material, thereby resulting in the corrosion of the resin or the solar battery cell. A barrier layer made of inorganic substances having portions in contact with the substrate and the second electrode is provided. Here, the barrier layer is formed by laminating at least SiO | 04-12-2012 |
20120085406 | SUBSTRATE WITH THIN FILM, AND SOLAR CELL USING THE SAME - A substrate with a thin film formed by layering a transparent substrate, a silicon compound film, and a transparent electroconductive film in this order, wherein the surface of the silicon compound film on the side of the transparent electroconductive film is an irregularly shaped surface provided with irregularities, the surface of the transparent electroconductive film opposite from the silicon compound film is an irregular surface shaped so as to follow the irregularly shaped surface, and the silicon compound film includes fine transparent particles having a different refractive index than the refractive index of the silicon compound film. | 04-12-2012 |
20100233243 | Laminated Microcapsule Sheet and Process For Production Thereof - Disclosed is a laminated microcapsule sheet which is produced using a lamination apparatus B and a water repellency imparting apparatus A, wherein the lamination apparatus B is used for laminating multiple types of materials at multiple parts on an edible film to form a laminated microcapsule sheet and the water repellency imparting apparatus A is used for imparting water repellency to the surface of the edible sheet. The sheet is improved in the disadvantages attributable to the water soluble property of an edible film. | 09-16-2010 |
20100136123 | Microcapsule Sheet - In order to heighten the density of microcapsules and facilitate handling by the unit composed of microcapsules in a given amount smaller than in the whole sheet, a microcapsule sheet which comprises a substrate constituted of an edible film and microcapsules each obtained by surrounding a core layer with a first shell film and a second shell film, the microcapsules being arranged according to a given pattern so as to be arranged only in those regions of the substrate which are separated from each other. | 06-03-2010 |
20090321895 | SILICON THIN-FILM AND METHOD OF FORMING SILICON THIN-FILM - Issue Providing a silicon film which can prevent damage of electronic devices formed on a substrate from occurrence, can prevent apparatus arrangement from becoming large-scale one, can improve coherency of a silicon thin film to a substrate, and is hardly happened crack and/or flaking, and providing a method for forming the silicon thin film. | 12-31-2009 |
20090188630 | Laminated Microcapsule Sheet Producing Apparatus - An apparatus capable of producing a laminated microcapsule sheet through transferring with high productivity of a drug solution of high viscosity accurately as much as a given weight while avoiding run-off from an enteric layer. There is provided an apparatus comprising edible film holding means ( | 07-30-2009 |
20090071703 | CONDUCTIVE PASTE, CIRCUIT BOARD, CIRCUIT ARTICLE AND METHOD FOR MANUFACTURING SUCH CIRCUIT ARTICLE - The present invention provides a conductive paste, which is suitable for forming and protecting a circuit, an electrode and the like and is capable of connecting electrodes of a plurality of circuit boards in a short time, a circuit board, a circuit article excellent in moisture and heat resistance and the like, and a method for producing the circuit article. The present conductive paste comprises a conductive material that is scaly, has a mean particle diameter of 1 μm or more and 10 μm or less, and is at least one material selected from the group consisting of Ag, an Ag alloy, an Ag-coated material, and an Ag alloy-coated material, and a resin having a storage modulus at 25° C. of 100 MPa or more. The present circuit board ( | 03-19-2009 |