Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Eiji Yamada
Eiji Yamada, Wako-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100264701 | VEHICULAR REINFORCING BAR STRUCTURE - A vehicular reinforcing bar structure includes: a reinforcing bar fixedly fastened at its opposite end portions to a pair of opposed vehicle body frame members, the reinforcing bar having a uniform closed sectional shape from one of the end portions to the other; collars fitted in the respective opposite end portions of the reinforcing bar for imparting fastening force to the end portions; and mounting brackets provided in corresponding relation to the opposite end portions, each of the mounting brackets being formed in a closed section and fixedly fastening the corresponding end portion by sandwiching the end portion with the corresponding vehicle body frame member. | 10-21-2010 |
| 20100314422 | VEHICLE BODY REAR PART STRUCTURE - A vehicle body rear part structure in which a spare tire is stored underneath a rear floor via a spare tire carrier. The vehicle body rear part structure includes a frame part and a tire cover. An embedding groove is formed in an external surface of the tire cover. The frame part is embedded in the embedding groove. Left and right front connecting parts of the frame part are rotatably connected to left and right front support parts. A rear connecting part of the frame part is vertically movably connected to rear support part. Vertical movements of the rear connecting part via the rear support part causes a spare tire to be disposed in a tire storage position and a tire accessing position. | 12-16-2010 |
Eiji Yamada, Mihara-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100244046 | NITRIDE SEMICONDUCTOR DEVICE - On a processed substrate having an engraved region as a depressed portion formed thereon, a nitride semiconductor thin film is laid. The sectional area occupied by the nitride semiconductor thin film filling the depressed portion is 0.8 times the sectional area of the depressed portion or less. | 09-30-2010 |
| 20110136276 | NITRIDE SEMICONDUCTOR LIGHT-EMITTING DEVICE AND METHOD FOR FABRICATION THEREOF - A nitride semiconductor laser device uses a substrate with low defect density, contains reduced strains inside a nitride semiconductor film, and thus offers a satisfactorily long useful life. On a GaN substrate ( | 06-09-2011 |
Eiji Yamada, Aichi-Ken JP
| Patent application number | Description | Published |
|---|---|---|
| 20090042099 | ELECTRODE STACK AND BIPOLAR SECONDARY BATTERY - An electrode stack includes a cathode active material layer and an anode active material layer stacked together, and an electrolyte layer arranged between the cathode active material layer and the anode active material layer. A through hole extending in the stacking direction of the cathode active material layer and anode active material layer is formed in the cathode active material layer, anode active material layer and the electrolyte layer. The electrode stack further includes a bolt inserted to the hole for integrally holding the cathode active material layer, anode active material layer and the electrolyte layer. By such a structure, an electrode stack and a bipolar secondary battery that can effectively prevent displacement of interface between each of the cathode, anode and the electrolyte can be provided. | 02-12-2009 |
| 20090205897 | POWER SUPPLY APPARATUS AND VEHICLE - A battery is arranged outside a compartment. A service plug is arranged in the compartment. The service plug is a shutoff device that can shut off an output path of the battery by a manual operation. When a vehicle is hard hit at the front and a circuit of PCU is damaged, an excessive current may flow to the PCU, possibly generating heat or smoke from the PCU. When the vehicle goes wrong, a person on board the vehicle may pull out the service plug, whereby the power supply path from battery to PCU can be shut off. | 08-20-2009 |
| 20100231086 | MANUFACTURING METHOD OF ROTATING ELECTRIC MACHINE AND ROTATING ELECTRIC MACHINE - A manufacturing method of a rotating electric machine includes the steps of: preparing a plurality of split stator cores annularly arranged at intervals in a circumferential direction so that their inner end portions are aligned with an imaginary circle and a support member positioned inside the imaginary circle in a radial direction to support the inner end portions of split stator cores; mounting a fastening member on outer peripheries of split stator cores to press respective split stator cores inward in the radial direction; and displacing split stator cores pressed by fastening member inward in the radial direction while the support member is supporting split stator cores. | 09-16-2010 |
Eiji Yamada, Osaka JP
| Patent application number | Description | Published |
|---|---|---|
| 20090104383 | Transfer Paper for Dry Transfer Printing and Method of Dry Transfer Printing with the Same - A transfer paper for use in dry transfer printing in witch a transfer paper is pressed with heating against a natural or synthetic fibrous material to transfer an ink thereto. It is characterized in that it is produced by applying a water-soluble dye ink to a transfer paper having a release agent layer and an ink-receiving layer overlying the layer and the ink-receiving layer comprises a hydrophilic synthetic resin and a hydrophilic adhesive, the hydrophilic adhesive being contained in an amount of 1-50 parts by weight per 100 parts by weight of the hydrophilic synthetic resin. Also provided is a method of dry transfer printing characterized by pressing the transfer paper for dry transfer printing against a natural or synthetic fibrous material with heating to thereby transfer the water-soluble dye ink applied to the transfer paper to the fibrous material and subsequently fixing the ink. | 04-23-2009 |
| 20100043152 | METHOD OF DRY TRANSFER PRINTING OF SYNTHETIC FIBROUS MATERIAL WITH DISPERSE DYE AND TRANSFER PAPER - A transfer paper which comprises a transfer paper base and a disperse dye ink printed thereon or imparted thereto. The transfer paper is used in a dry transfer printing method in which the transfer paper is pressed against a synthetic fibrous material with heating to thereby transfer the dye (pattern) from the transfer paper to the fibrous material. The transfer paper is characterized in that the transfer paper base has a releasant layer comprising a synthetic resin soluble in organic solvents and an ink-receiving layer made from a mixture comprising a hydrophilic synthetic resin which softens or melts upon heating, a hydrophilic binder, and various aids, the ink-receiving layer being superposed on the releasant layer. With this transfer paper for dry transfer printing, a highly fine pattern can be printed with excellent reproducibility. Furthermore, the transfer paper enables quick delivery by so-called printing without platemaking. The method of dry transfer plating employs this transfer paper. | 02-25-2010 |
Eiji Yamada, Nara JP
| Patent application number | Description | Published |
|---|---|---|
| 20090046113 | Uneven streaks evaluation device, uneven streaks evaluation method, storage medium, and color filter manufacturing method - A present uneven streaks evaluation device includes an evaluation data generation section for generating evaluation data, serving as an index for evaluating cyclic uneven streaks occurring on an evaluation target surface, in accordance with image data obtained by imaging the evaluation target surface to which light is emitted, wherein a one-dimensional projection processing section carries out a one-dimensional projection process with respect to light distribution included in the image data so that a projection direction is a direction including a vector of a direction in which uneven streaks occur, a power spectrum calculation section calculates a power spectrum in accordance with the light distribution having been subjected to the one-dimensional projection process, an integration processing section calculates an interval integral value of a preset cycle in accordance with the calculated power spectrum, and a noise component removing section removes a noise component included in the calculated interval integral value. | 02-19-2009 |
Eiji Yamada, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20080217287 | METHOD OF MANUFACTURING A THIN-FILM MAGNETIC HEAD, THIN-FILM MAGNETIC HEAD MANUFACTURING APPARATUS, AND THIN-FILM MAGNETIC HEAD MANUFACTURING SYSTEM - A method of manufacturing a thin-film magnetic head works a part to be worked to a target length by carrying out an etching process on an object to be worked using an etching apparatus. The method carries out a measuring process that measures a length before working of a part to be worked using a measuring apparatus and a calculation process that calculates the processing time of the etching process required to work the part to be worked from the length before working to the target length based on a first calculation result correcting parameter obtained in advance corresponding to the measuring apparatus, a second calculation result correcting parameter obtained in advance corresponding to a position of the part to be worked, a third calculation result correcting parameter obtained in advance corresponding to a value of a current supplied to an electrode of the etching apparatus during the etching process, a fourth calculation result correcting parameter obtained in advance corresponding to a total usage time of the electrode, the length before working, and the target length. The etching process is carried out on the object to be worked for the calculated processing time. | 09-11-2008 |