Patent application number | Description | Published |
20150108877 | ROTARY ELECTRIC MACHINE - A rotary electric machine includes: a stator around which a coil is wound; a frame which fixes the stator; a rotor which faces the stator via a slight air gap; a shaft which is fixed to the rotor and is rotatably and removably supported via a bearing; and a bracket which supports the bearing inside a bearing box. The rotary electric machine includes: an insulating member which is mounted inside the bearing box of the bracket; a metal holder which is mounted inside the insulating member with a predetermined clearance with respect to an outer ring of the bearing, and supports the bearing; and a pressing body which is mounted between the side surface of the metal holder and the side surface of the outer ring of the bearing. | 04-23-2015 |
20150256052 | ARMATURE OF ROTATING ELECTRICAL MACHINE AND METHOD FOR MANUFACTURING SAME - Provided is an armature for a rotating electrical machine, which is capable of improving heat dissipation performance of an edgewise coil to enhance efficiency of the rotating electrical machine. The armature for a rotating electrical machine includes: a core including a yoke section and a tooth section that protrudes from the yoke section; an edgewise coil to be inserted onto the tooth section through intermediation of an insulating member, the edgewise coil being formed by winding a rectangular wire having a rectangular conductor cross-section through edgewise bending; and a heat transfer member filled into a gap between the tooth section and the edgewise coil. The armature has different gaps formed at two regions between the tooth section and a long side of the edgewise coil. | 09-10-2015 |
20150318754 | ROTOR-HOLDING STRUCTURE OF ROTATING ELECTRICAL MACHINE FOR HYBRID VEHICLE - It is an object of the present invention, to provide a rotor-holding structure of a rotating electrical machine for hybrid-vehicle, the structure being capable of ensuring a space is present between a stator and a rotor. A rotating electrical machine includes a stator and a rotor, the stator being fixed to a housing, and the rotor being disposed opposite to stator across a predetermined space, wherein the rotor has a rotor boss section, a rotor core, and a permanent magnet. The rotor boss section is rotatably attached to the housing through a bearing. The rotor core and the permanent. magnet are attached to the rotor boss section. Multiple through-holes are provided at the respective corresponding locations of the housing and the rotor boss section. A supporting member is passed through each of the through-holes, thereby holding the rotor boss section. | 11-05-2015 |
20160118858 | ROTARY ELECTRIC MACHINE - In the rotary electric machine according to the present invention, a first O-ring | 04-28-2016 |
Patent application number | Description | Published |
20090115869 | PHOTOGRAPHING APPARATUS AND PHOTOGRAPHING METHOD - Disclosed is a photographing apparatus of interlace transferring type comprising a photographing device which carries out transfer of electrification of all pixels stored in the photographing device by dividing into a plurality of fields when transferring the electrification, which has a plurality of color filters and which includes a color signal of at least RGB or YeCyMgG in the transfer data of each field for transferring the electrification, an extraction unit for extracting characteristic data of an image from transferred data before processing for the image is started, a generating unit for generating control value carrying out correction of image based on the extracted characteristic data, and a photographing processing unit for processing the image by use of a control value formed by said characteristic data. | 05-07-2009 |
20110115940 | IMAGE PICKUP DEVICE, AUTOMATIC FOCUSING METHOD, AUTOMATIC EXPOSURE METHOD, ELECTRONIC FLASH CONTROL METHOD AND COMPUTER PROGRAM - An image pickup device provided with an automatic focusing function includes an image pickup unit, a face detection unit, a receive unit, and an automatic focusing control unit. The image pickup unit is configured to input image data corresponding to a subject. The face detection unit is configured to separately detect eyes, a nose, and a mouth of a human face from the image data input from the image pickup unit. The receive unit is configured to receive from a user a selection of any one of the eyes, the nose, or the mouth as a ranging area. The automatic focusing control unit is configured to perform automatic focusing control based on the ranging area selected by the user. | 05-19-2011 |
Patent application number | Description | Published |
20110224934 | EVALUATING APPARATUS, EVALUATING METHOD, AND COMPUTER PROGRAM PRODUCT - According to one embodiment, an evaluating apparatus includes a resist-pattern-data acquiring unit and an evaluating unit. The resist-pattern-data acquiring unit acquires resist pattern data having a plurality of feature values including at least two among a hole diameter measured concerning a pattern for hole formation in the resist pattern, an aspect ratio of the hole diameter, and a difference of hole diameters at a plurality of signal thresholds. The evaluating unit calculates an evaluation value using an evaluation function for evaluating whether a hole pattern formed on a processing target by using the pattern for hole formation is unopened and the resist pattern data and evaluates presence or absence of a risk that the hole pattern is unopened. | 09-15-2011 |
20120149211 | METHOD OF FORMING PATTERN, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING TEMPLATE - According to one embodiment, a pattern formation method includes, before forming a circuit pattern on a substrate using imprinting, a wall pattern with a predetermined height is formed to surround the periphery of an area serving as imprint shots on the substrate in each imprint shot and to allow the imprint shots to be separated from one another. The circuit pattern is formed in the imprint shots surrounded by the wall pattern through imprinting. | 06-14-2012 |
20120318561 | PATTERN FORMATION METHOD, METHOD FOR MANUFACTURING ELECTRONIC DEVICE, AND ELECTRONIC DEVICE - According to one embodiment, a pattern formation method includes: providing a first member; providing a second member; forming a third pattern; and removing a convex portion of a second pattern. The first member is provided on a major surface of a substrate and cured in a state of a template having a first pattern being brought into contact to form the second pattern including a convex portion in a first region on the major surface. The second member is provided in a concave portion adjacent to the convex portion of the second pattern. The third pattern is formed in the second member provided on a second region on the major surface. The removing the convex portion includes removing the convex portion of the second pattern to leave the third pattern and a fourth pattern formed by the second member provided in the concave portion on the major surface. | 12-20-2012 |
20130224635 | MASK PATTERN CREATION METHOD, RECORDING MEDIUM, AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD - According to one embodiment, a mask pattern creation method includes extracting an area, in which a DSA material is directed self-assembled to form a DSA pattern, from a design pattern area based on a design pattern and information on the DSA material. The method also includes creating a guide pattern that causes the DSA pattern to be formed in the area based on the design pattern, the information on the DSA material, the area, and a design constraint when forming the guide pattern. The method further includes creating a mask pattern of the guide pattern using the guide pattern. | 08-29-2013 |
20140354799 | PATTERN INSPECTION METHOD AND PATTERN INSPECTION APPARATUS - According to one embodiment, a pattern inspection method includes acquiring a first image using a first condition by irradiating an electron beam onto a pattern to be inspected, acquiring a second image using a second condition by irradiating the electron beam onto the pattern, the second condition being different from the first condition, and judging the existence/absence of defects of the pattern by comparing the first image and the second image. A pattern inspection apparatus includes an electron source, a converging part, a stage, an image acquisition part, a controller and a judgment part. The controller is configured to perform a control to acquire a first image using a first condition and acquire a second image using a second condition different from the first condition. The judgment part is configured to judge the existence/absence of defects of the pattern by comparing the first and the second image. | 12-04-2014 |
20150253660 | PATTERN FORMING METHOD AND PATTERN FORMING SYSTEM - According to one embodiment, a pattern forming method includes: forming a film to be processed on a substrate; forming a resist pattern on the film to be processed; irradiating a predetermined portion of the resist pattern with an energy beam; forming a reversing material layer covering the resist pattern including the portion irradiated with the energy beam; forming a reversed pattern by removing the surface of the reversing material layer so as to expose the portion of the resist pattern not irradiated with the energy beam; removing the resist pattern; and performing an etching process on the film to be processed using the reversed pattern. | 09-10-2015 |
20160079082 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device according to an embodiment includes forming a first interlayer film on a first layer, the first interlayer film containing a first molecule and a second molecule, and the first molecule and the second molecule being chemically bonded with each other. The method of manufacturing a semiconductor device includes phase-separating the first interlayer film. The method of manufacturing a semiconductor device includes forming a second layer on the phase-separated first interlayer film. The first molecule has a first affinity with the first layer and a second affinity with the second layer, the first affinity being larger than the second affinity. The second molecule has a third affinity with the second layer and a fourth affinity with the first layer, the third affinity being larger than the fourth affinity. | 03-17-2016 |
Patent application number | Description | Published |
20090002820 | Antireflection Film, Manufacturing Method of Antireflection Film, Hard Coat Film, Polarizing Plate and Display - An antireflection film comprising a hard coat layer and an antireflection layer on at least one side of a transparent resin film, wherein the hard coat layer contains a polyoxyethylene oleyl ether compound and an actinic ray curable resin. | 01-01-2009 |
20090002821 | Antireflection Film, Producing Method of Antireflection Film, Polarizing Plate and Display Device - Disclosed is an antireflection film having an antireflection layer excellent in chemical resistance, surface hardness and wet-heat-resistant adhesion. Also disclosed are a method for producing such an antireflection film, a polarizing plate using such an antireflection film, and a display. Specifically disclosed is an antireflection film which comprises a hard coat layer and an antireflection layer on at least one side of a transparent resin film. This antireflection film is characterized in that the hard coat layer contains at least an active ray curable resin, a silicone surface active agent and a polyoxyether compound, and the mass ratio between the silicone surface active agent content and the polyoxyether compound content is from 1.0:1.0 to 0.10:1.0. | 01-01-2009 |
20100304020 | Antireflection film, production method of the same, polarizing plate and display - An antireflection film comprising a transparent substrate film having thereon a hard coat, a high refractive index layer and a low refractive index layer, wherein: (i) the high refractive index layer is formed by applying a coating solution containing the following (a) to (c); (ii) the low refractive index layer is formed by applying a coating solution containing the following (d) and (e); (iii) the antireflection film is heat treated, wherein (a) metal oxide particles having an average primary particle diameter of 10 to 200 nm; (b) a metal compound; (c) an ionizing radiation curable resin; (d) an organosilicon compound having a prescribed structure, a hydrolyzed compound of the organosilicon compound, a decomposed compound of the organosilicon compound or a polycondensed compound of the organosilicon compound; and (e) hollow silica particles each having an outer shell, and a void or a porous portion in the inside. | 12-02-2010 |
Patent application number | Description | Published |
20090047142 | VACUUM PUMP UNIT - The present invention relates to a dry vacuum pump unit capable of achieving ultimate pressure of about 1 Pa. The vacuum pump unit includes a main pump ( | 02-19-2009 |
20130272904 | CANNED MOTOR AND VACUUM PUMP - Provided is a canned motor to be coupled to a vacuum pump and used as a rotary driving source for the vacuum pump. The canned motor includes: a stator core; a rotor provided on an inner side of the stator core; and a non-conductive can provided between the stator core and the rotor. The non-conductive can is configured to separate the stator core and the rotor from each other. The non-conductive can is made of resin, ceramic, or composite material thereof. The non-conductive can is bonded to the stator core with an adhesive. | 10-17-2013 |
20140050605 | SEALING STRUCTURE, VACUUM PUMP MOTOR INCLUDING SAME SEALING STRUCTURE, AND VACUUM PUMP - To provide a sealing structure for a vacuum pump motor which maintains the sealing properties of the vacuum pump motor in an ensured fashion, there is provided a sealing structure for a vacuum pump motor | 02-20-2014 |
20140056733 | VACUUM PUMP MOTOR AND VACUUM PUMP INCLUDING SAME - In order to provide a vacuum pump motor which is free from rotation imbalance, there is provided a vacuum pump motor | 02-27-2014 |
20140241914 | VACUUM PUMP MOTOR ROTOR, MOTOR INCLUDING SAME AND VACUUM PUMP - In order to provide a motor rotor in which a permanent magnet is prevented from corroding, wherein a motor rotor for use in a motor for driving a pump rotor rotating shaft of a vacuum pump is provided which comprises a rotor core made up of a plurality of steel plates which are laminated in an axial direction and having a through hole, a permanent magnet which is disposed in the through hole, and end plates which are attached individually to axial end portions of the rotor core, wherein an adhesive is applied to a whole surface of each of the plurality of steel plates, and the plurality of steel plates are surface joined to each other and to the end plates via the adhesive. | 08-28-2014 |