Patent application number | Description | Published |
20120084059 | DATA ACQUISITION METHOD OF SUBSTRATE TREATMENT APPARATUS AND SENSOR SUBSTRATE - The present invention holds a sensor substrate including a sensor part for collecting information about a module and a power receiving coil for supplying power to the sensor part, on a holding member; moves the holding member forward to deliver the sensor substrate to the module; supplies power to a power transmitting coil provided at a base of the holding member to form a magnetic field, and causes the power transmitting coil and the power receiving coil to resonate in the magnetic field to supply power from the power transmitting coil to the power receiving coil; and acquires data about the module by the sensor part. | 04-05-2012 |
20130006547 | DATA ACQUISITION METHOD OF SUBSTRATE PROCESSING APPARATUS AND SENSING SUBSTRATE - A data acquisition method of a substrate processing apparatus for acquiring data on gas current directions in a plurality of measurement regions on a surface of a substrate, includes: loading a sensing substrate having a plurality of pairs of sensors on a loader, wherein each pair of sensors includes a first sensor and a second sensor configured to acquire vector data of the gas current on the surface of the sensing substrate; acquiring vector data of the gas current in a first linear direction by the first sensor; acquiring vector data of the gas current in a second linear direction slanted to the first linear direction by the second sensor; and combining the gas current vectors based on a starting point associated with the respective pair of sensors; and calculating a gas current direction from the starting point associated with the respective pair of sensors. | 01-03-2013 |
20130346018 | METHOD FOR OBTAINING DATA OF SUBSTRATE PROCESSING APPARATUS AND SENSOR SUBSTRATE - According to an embodiment of the present invention, a data obtainment method for obtaining data on gas flow directions in a plurality of measurement regions in a surface of a substrate loaded onto a loading unit of a substrate processing apparatus is provided. The method includes loading a sensor substrate onto the loading unit in a first direction, and changing the first direction into a second direction. Further, it is obtained a vector data of a gas flow in a first straight direction and a vector data of a gas flow in a second straight direction from each first sensor of the sensor substrate loaded in the first and second directions. Also, the method includes calculating a gas flow direction at each starting point in the first and second measurement regions by combining the vector data. | 12-26-2013 |
Patent application number | Description | Published |
20090283374 | DRUM BRAKE APPARATUS - A drum brake apparatus is provided with a backing plate, a brake shoe, a shoe guide portion formed integrally with a backing plate by cutting-up, a guide surface on a rear surface of the shoe guide portion, an engagement projection that is formed on the brake shoe and slidably engages with the guide surface, and end portions that is formed on the shoe guide portion at both ends of the shoe guide portion in a circumferential direction of the drum brake apparatus and is continuous to the backing plate. Uplift of the brake shoe from the backing plate is prevented by engagement between the guide surface and the engagement projection. | 11-19-2009 |
20130153349 | DRUM BRAKE TYPE ELECTRIC PARKING BRAKE APPARATUS - There is provided a drum brake type electric parking brake apparatus includes an electric actuator unit, a backing plate and a knuckle. The electric actuator unit includes an electric motor and a decelerator, and expands a gap between one end portions of the brake shoes based on activation of the electric motor. The electric actuator unit is separately provided from the backing plate. The electric actuator unit is arranged at an inner-side surface of the knuckle, and the backing plate is arranged at an outer-side surface of the knuckle. The backing plate and the electric actuator unit are supported and fixed to the knuckle. | 06-20-2013 |
20140027221 | DRUM BRAKE TYPE ELECTRIC PARKING BRAKE APPARATUS - A drum brake type electric parking brake apparatus includes an electric actuator unit configured to pull a cable so as to expand an expanding mechanism, a pulling pipe into which the cable is loosely inserted and supported so as to move in an axial direction, a feeding nut supported so as to move in only a rotation direction and provided with a female screw which is engaged with a male screw on the pulling pipe, and a connecting unit connecting a base end of the pulling pipe and a base end of the cable so as to pull the cable in a direction away from the expanding mechanism with the pulling pipe. The base end of the cable is projected from the base end of the pulling pipe which is an end opposite to the expanding mechanism. | 01-30-2014 |
Patent application number | Description | Published |
20090080875 | LENS APPARATUS AND CAMERA - An optical apparatus includes a photographic optical system including an image stabilizing unit supported by a support member via a plurality of elastic members, an actuator configured to drive the image stabilizing unit in a direction perpendicular to an optical axis thereof, a position detection unit configured to detect a position in the direction perpendicular to the optical axis of the image stabilizing unit, a gravitational direction determination unit configured to determine a gravitational direction based on an output from the position detection unit, a setting unit configured to set a holding position at which the image stabilizing unit is held based on information concerning the gravitational direction output from the gravitational direction determination unit, and a control unit configured to control the actuator based on information concerning the holding position to move the image stabilizing unit to the holding position. | 03-26-2009 |
20110128604 | LIGHT-AMOUNT ADJUSTING APPARATUS, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING THE LIGHT-AMOUNT ADJUSTING APPARATUS - A light-amount adjusting apparatus includes a plurality of light-amount adjusting blades that causes a size of a light-passing aperture to change by rotation thereof. Each of the light-amount adjusting blades includes a base portion on which a rotation center portion and a driven portion are formed, and a blade portion that overlaps another light-amount adjusting blade in a light-passing direction so as to form the light-passing aperture. A thickness of the blade portion is thinner than that of the base portion. When the plurality of light-amount adjusting blades is rotated to set the light-passing aperture to be smaller than a full-opened aperture, a thickness of a portion that overlaps an adjacent stop blade is thinner than that of a portion that does not overlap the adjacent stop blade in each of the light-amount adjusting blades. The blades have high dimension accuracy, and deterioration of the optical performance of the apparatus is reduced. | 06-02-2011 |
20130127976 | DISPLAY APPARATUS EQUIPPED WITH IMAGE PICKUP APPARATUS - A display apparatus includes a display unit configured to display image information, and a plurality of image pickup units configured to be capable of picking up a user who observes image information of the display unit arranged on a rear surface of a display surface of the display unit, wherein the plurality of image pickup units is two-dimensionally arranged, and an array pitch in a vertical direction of the image pickup units is wider than an array pitch in a horizontal direction. | 05-23-2013 |
20140212126 | IMAGE PICKUP APPARATUS - An image pickup apparatus includes a camera body | 07-31-2014 |
Patent application number | Description | Published |
20100112904 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 05-06-2010 |
20110312255 | METHOD FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET - A rare earth magnet block is cutoff machined into pieces by rotating a plurality of cutoff abrasive blades. Improvements are made by starting the machining operation from the upper surface of the magnet block downward, interrupting the machining operation, turning the magnet block upside down, placing the magnet block such that the cutoff grooves formed before and after the upside-down turning may be aligned with each other, and restarting the machining operation from the upper surface of the upside-down magnet block downward until the cutoff grooves formed before and after the upside-down turning merge with each other. | 12-22-2011 |
20120282847 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 11-08-2012 |
20120282848 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 11-08-2012 |
20130217307 | METHOD AND APPARATUS FOR MULTIPLE CUTOFF MACHINING OF RARE EARTH MAGNET BLOCK, CUTTING FLUID FEED NOZZLE, AND MAGNET BLOCK SECURING JIG - In a method for multiple cutoff machining a rare earth magnet block, a cutting fluid feed nozzle having a plurality of slits is combined with a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft, each said blade comprising a base disk and a peripheral cutting part. The slits in the feed nozzle into which the outer peripheral portions of cutoff abrasive blades are inserted serve to restrict any axial run-out of the cutoff abrasive blades during rotation. Cutting fluid is fed from the feed nozzle through slits to the rotating cutoff abrasive blades and eventually to points of cutoff machining on the magnet block. | 08-22-2013 |
Patent application number | Description | Published |
20130059389 | Method for Producing Kluyveromyces Marxianus Transformant - An object to be solved by the present invention is to provide, for example, a method for producing a | 03-07-2013 |
20140024097 | YEAST MUTANT OF KLUYVEROMYCES AND METHOD FOR ETHANOL PRODUCTION USING THE SAME - A yeast of the genus | 01-23-2014 |
20140179002 | TERMINATOR SEQUENCE-CONTAINING REVERSE PRIMER FOR OVEREXPRESSION AND LINEAR DNA - Plasmid vectors have been widely used as a carrier of a DNA sequence capable of expressing a target RNA in cells. However, construction of these plasmid vectors requires technical skill and time. Thus, a quicker and easier method is required therefor. To solve this problem, a method using a linear DNA that has been amplified by the PCR method is examined. However, this method is disadvantageous in that RNA expression in cells is extremely low. Under these circumstances, the present inventors attempted to develop an RNA expression method using a linear DNA which can be produced mainly by using the PCR method alone and which enables a high level of RNA expression. As the results of intensive studies on terminator sequences to be used in a linear DNA, the present inventors found a smallest unit of a terminator sequence enabling linear DNA expression equivalent to that when using a plasmid vector. A linear DNA including the aforesaid terminator sequence can be produced quickly and easily, and enables RNA expression at a higher level. The present invention has been completed based on these findings. | 06-26-2014 |
20150031103 | NOVEL PROMOTER AND USE THEREOF - The promoter of the present invention causes a desired gene to be highly expressed, especially in thermotolerant yeast. The promoter is located upstream of the PIR1 gene or the CTR1 gene on the | 01-29-2015 |
Patent application number | Description | Published |
20110020937 | FLOCCULENT YEAST AND METHOD FOR PRODUCTION THEREOF - It is to provide a novel | 01-27-2011 |
20130005041 | Agent for Improving Gene Transfer Efficiency to Mammalian Cells - Provided is an efficiency improving agent for gene transfer to mammalian cells, a method for improving efficiency of gene transfer to mammalian cells, and a method for transforming mammalian cells. The method is characterized in that tRNA is used in combination with a lipofection reagent. Preferably, the agent may be used so that the tRNA concentration in a lipofection solution falls within the range of 3 to 50 μg/mL, and the concentration in a culture is approximately 1/10. More preferably, tRNA and PEG may be used in combination with a lipofection reagent. According to the present invention, gene transfer to mammalian cells with high efficiency can be achieved. | 01-03-2013 |
20130210107 | HIGH-EXPRESSION PROMOTER DERIVED FROM KLUYVEROMYCES MARXIANUS - Provided is a novel high-expression promoter, namely a GAL1 promoter, derived from | 08-15-2013 |
20150299647 | MEDIUM FOR YEASTS - In order to provide a culture medium eliminating variation by lot of component concentrations, the present invention provides a culture medium, and preferably a chemical-synthetic culture medium, imparting a proliferation ability to yeast that is equivalent to or greater than that of a YPD culture medium. A culture medium is provided which includes sugars as a carbon source capable of being assimilated by yeast; amino acids as a nitrogen source; vitamins; inositol; zinc ion (Zn | 10-22-2015 |
Patent application number | Description | Published |
20120135851 | HIGH TRANSMITTANCE LIGHT-COLORED GLASS AND PROCESS FOR PRODUCING THE GLASS - To provide a high transmittance light-colored glass having a high Tva (at least 60%), a low Te (at most 60%), a low Pe (at most 6.0%) and λd of from 560 to 780 nm or λc of from −550 to −492 nm. A high transmittance light-colored glass comprising, as a glass matrix composition, SiO | 05-31-2012 |
20150158757 | TEMPERED GLASS - To provide tempered glass which is thin and can be produced by common air-quench tempering without requiring a special production facility, and untreated glass for such tempered glass. The tempered glass is obtainable via a heating step and a cooling step. The heating step is a step of applying heat treatment to glass to be treated, of which the glass transition point is from 500 to 600° C. and the maximum value of the thermal expansion coefficient (αmax) between the glass transition point and the yield point is at least 430×10 | 06-11-2015 |
20150202854 | LAMINATED GLASS PRODUCTION METHOD - A laminated glass production method includes bending multiple glass plates into a desired shape by heating the glass plates to near a softening point, stacking the bent glass plates in layers with an interlayer interposed therebetween, and forming laminated glass by bonding the glass plates and the interlayer stacked in layers by applying pressure. At least two of the glass plates composing the laminated glass have different thicknesses. Of the two glass plates having different thicknesses, the thicker glass plate has a lower viscosity than the thinner glass plates at a temperature between the annealing point and the softening point of the thicker glass plate. Forming the laminated glass includes forming an uneven temperature distribution on a principal surface of each of the glass plates. | 07-23-2015 |
20160083288 | GLASS FOR CHEMICAL STRENGTHENING, CHEMICALLY STRENGTHENED GLASS, AND METHOD FOR PRODUCING CHEMICALLY STRENGTHENED GLASS - A glass for chemical strengthening is a glass plate. The glass plate includes, as represented by mass percentage based on the following oxides, 65 to 72% of SiO | 03-24-2016 |