Patent application number | Description | Published |
20110065575 | THERMOSENSITIVE RECORDING MATERIAL AND PRODUCTION METHOD THEREOF - To provide a thermosensitive recording material, containing a base, a thermosensitive recording layer disposed on the base and containing a leuco dye and a color developer, an intermediate layer disposed on the thermosensitive recording layer, and a protective layer disposed on the intermediate layer, wherein the intermediate layer contains a resin, and an aziridine compound. | 03-17-2011 |
20110224074 | THERMOSENSITIVE RECORDING MEDIUM - To provide a thermosensitive recording medium, containing: a support; a thermosensitive recording layer; and a surface layer, where the thermosensitive recording layer and the surface layer are provided over the support, wherein the thermosensitive recording layer contains a binding agent, a coloring agent, and a color developer, and wherein the surface layer contains polyester (meth)acrylate having at least three (meth)acryloyl groups, and an α-hydroxyketone-based polymerization initiator having a melting point of 80° C. or higher. | 09-15-2011 |
Patent application number | Description | Published |
20090029046 | SUBSTRATE PROCESSING APPARATUS, METHOD FOR PROCESSING SUBSTRATE, AND STORAGE MEDIUM - Processing gas is supplied from the central upper part of a processing chamber to a wafer on a mounting board, while the processing chamber is exhausted from processing gas exhaust passages at areas outside of the wafer. In addition, purge gas is supplied from purge gas supply passages to a buffer chamber formed between the peripheral part or a container main body and that of a cover body. The supplied flow-rate of the processing gas is made less than the exhaust flow-rate in the processing gas exhaust passages. Accordingly, the purge gas in the buffer chamber is drawn into the processing chamber via a purge gas supply hole formed of a gap between the container main body and the cover body due to a negative pressure inside the processing chamber caused by a difference between the flow rates. | 01-29-2009 |
20100236477 | HEAT TREATMENT APPARATUS, HEAT TREATMENT METHOD, AND RECORDING MEDIUM STORING COMPUTER PROGRAM CARRYING OUT THE SAME - An experiment is conducted in advance, for finding a temperature of a cooling plate attained as a result of balancing between a temperature of a substrate after heat treatment and a temperature of the cooling plate at the time of cooling of the substrate. Then, before heat treatment of a first substrate, the cooling plate is moved to a position above a hot plate, the cooling plate is heated to that temperature, and thereafter heat treatment of the substrate is started. | 09-23-2010 |
20110308464 | SUBSTRATE PROCESSING APPARATUS, METHOD FOR PROCESSING SUBSTRATE, AND STORAGE MEDIUM - Processing gas is supplied from the central upper part of a processing chamber to a wafer on a mounting board, while the processing chamber is exhausted from processing gas exhaust passages at areas outside of the wafer. In addition, purge gas is supplied from purge gas supply passages to a buffer chamber formed between the peripheral part of a container main body and that of a cover body. The supplied flow-rate of the processing gas is made less than the exhaust flow-rate in the processing gas exhaust passages. Accordingly, the purge gas in the buffer chamber is drawn into the processing chamber via a purge gas supply hole formed of a gap between the container main body and the cover body due to a negative pressure inside the processing chamber caused by a difference between the flow rates. | 12-22-2011 |
Patent application number | Description | Published |
20090075817 | THERMOSENSITIVE RECORDING MATERIAL - A thermosensitive recording material including a support, a thermosensitive recording layer composed mainly of a leuco dye and a developer, provided on one surface of the support, and a back layer provided on the other surface of the support, wherein the back layer contains an isobutylene-maleic anhydride copolymer ammonium salt, and at least one of an aziridine compound, and a cross-linked product of the isobutylene-maleic anhydride copolymer ammonium salt and the aziridine compound. | 03-19-2009 |
20090215622 | THERMOSENSITIVE RECORDING MEDIUM AND RECORDING METHOD - The present invention provides a thermosensitive recording medium including a white plastic support, a thermosensitive recording layer containing a binder resin as a binding agent, a colorless or pale color leuco dye and a color developer for heat-developing the leuco dye, a protective layer, and a back layer containing an electron-conductive needle filler and an ion-conductive polymer, wherein the thermosensitive recording layer is disposed on the white plastic support, the protective layer is disposed on the thermosensitive recording layer, and the back layer is disposed on a side of the white plastic support opposite to the side where the thermosensitive recording layer is disposed. | 08-27-2009 |
Patent application number | Description | Published |
20120266715 | Steering Device - A steering device facilitates the assembling of a tilt lock mechanism that elastically supports movement of a movable tilt lock gear to a stationary cam in a tilt direction by a spring. The stationary cam has both characteristics of durability and an impact reduction capability. When a cylindrical part of a tilt stopper has been inserted into a through hole, the cylindrical part is enlarged in diameter, and engagement surfaces of engagement projections are engaged with an end surface of an inclined cam surface side of a stationary cam. A right end surface of a flange part of the tilt stopper is abutted against an end surface of a movable tilt lock gear. The movable tilt lock gear, a wire spring, and the stationary cam are integrated by the tilt stopper, and those four parts can be prevented from being dispersed during transportation. As a result, the assembling time can be reduced. Also, because those four parts are not displaced in the axial direction, the axial positions of the wire spring and the stationary cam can be held at a fixed position. | 10-25-2012 |
20120272778 | Steering Device - A steering device is provided in which fastening of a column is carried out smoothly, meshing of a movable tilt lock gear and a fixed tilt lock gear is carried out smoothly when tilting is clamped, and a rigidity can be increased when the tilting is clamped. A side plate on a left side to which a fixed tilt lock gear is attached is restrained from being elastically deformed by a rib. Therefore, in tilting and clamping and telescopically clamping, positions of the fixed tilt lock gear and a movable tilt lock gear in a vehicle width direction relative to each other is not varied, and therefore, the movable tilt lock gear and the fixed tilt lock gear are brought in mesh with each other smoothly. | 11-01-2012 |
20130104687 | Steering Device | 05-02-2013 |
20130104688 | Steering Device | 05-02-2013 |
20130228032 | Steering Device - A steering device provides a driver operation feeling that lets the driver definitely feel that a movable tilt lock gear and a fixed tilt lock gear are securely engaged. Gear noise in tilt adjustment when the movable tilt lock gear and the fixed tilt lock gear are engaged halfway is prevented. As the control force of an operating lever is rapidly decreased when a fitting protrusion is fitted to a stepped part, a click and click stop feeling occur and a definite operation feeling that the clamping is securely performed is acquired. As the fitting protrusion is integrated with the operating lever and a sliding surface configured by a groove, an inclined face and the stepped part are also formed as an outside face of the fixed tilt lock gear, the number of parts and man-hours for assembly can be reduced. | 09-05-2013 |
Patent application number | Description | Published |
20130062013 | JOINT APPARATUS, JOINT SYSTEM, AND JOINT METHOD - A joint apparatus that joins a processing target substrate and a supporting substrate together, includes: a processing container that is capable of hermetically closing an inside thereof; a joint unit that joins the processing target substrate and the supporting substrate together by pressing the processing target substrate and the supporting substrate via an adhesive; and a superposed substrate temperature regulation unit that temperature-regulates a superposed substrate joined in the joint unit, wherein the joint unit and the superposed substrate temperature regulation unit are arranged in the processing container, A delivery unit for delivering the processing target substrate, the supporting substrate, or the superposed substrate to/from an outside of the processing container is provided in the processing container, and the superposed substrate temperature regulation unit is provided in the delivery unit. | 03-14-2013 |
20130071996 | JOINT METHOD, JOINT APPARATUS AND JOINT SYSTEM - When joining a processing target substrate and a supporting substrate together by suction-holding the processing substrate and the supporting substrate respectively on a first holding unit and a second holding unit arranged to face each other and pressing the second holding unit toward the first holding unit while heating the substrates by heating mechanisms of the holding units, the present invention preheats at least the processing target substrate before suction-holding the processing target substrate on the first holding unit to suppress generation of particles when joining the processing target substrate and the supporting substrate together so as to properly perform the joining of the processing target substrate and the supporting substrate. | 03-21-2013 |
20140335633 | SEPARATION METHOD, COMPUTER STORAGE MEDIUM, AND SEPARATION SYSTEM - A superposed wafer is separated to a processing target wafer and a supporting wafer while being heated. Then, an adhesive on a joint surface of the processing target wafer is removed by supplying an organic solvent onto the joint surface of the processing target wafer. Then, an oxide film formed on the predetermined pattern on the joint surface of the processing target wafer is removed by supplying acetic acid to the joint surface of the processing target wafer. Then, the joint surface of the processing target wafer is inspected. Then, based on an inspection result, the adhesive on the joint surface of the processing target wafer is removed and the oxide film formed on the predetermined pattern on the joint surface of the processing target wafer is removed. | 11-13-2014 |