Patent application number | Description | Published |
20130220459 | HYDRAULIC OIL STORAGE DEVICE AND INJECTION MOLDING DEVICE - A hydraulic oil storage device and an injection molding device are provided with a connection box that partitions a storage region of a sub-tank into a first region that includes a flow channel opening portion for a coupling tube and a second region other than the first region, in which the connection box is provided with an internal region communication portion that brings the first region and the second region into communication, and causes a pressure loss equal to the pressure loss of the coupling tube, or a pressure loss greater than that pressure loss, and a return tube is connected to the sub-tank so that the flow channel outlet faces the first region. | 08-29-2013 |
20130313746 | INJECTION MOLDING MACHINE AND METHOD FOR CONTROLLING INJECTION MOLDING MACHINE - A hydraulic supply device of an injection molding machine is provided with: a first main hydraulic power source including a first main hydraulic pump having a variable capacity and driven by a first constant rotational speed motor, and a first main discharge pipe through which working oil flows; an auxiliary hydraulic power source including an auxiliary hydraulic pump driven by a servo motor and operated at a specific capacity, an auxiliary discharge pipe through which the working oil flows, and a check valve that regulates the inflow of working oil to the auxiliary hydraulic pump; a hydraulic control unit that controls the first main hydraulic power source and the auxiliary hydraulic power source; a junction pipe at which the first main discharge pipe and the auxiliary discharge pipe join; and a switching unit that switches the supply/non-supply of working oil for a hydraulic actuator. | 11-28-2013 |
20140183771 | HYDRAULIC SOURCE CONTROL DEVICE, INJECTION MOLDING APPARATUS, AND METHOD OF CONTROLLING HYDRAULIC SOURCE - The hydraulic source control device includes an operation input device capable of inputting operation conditions regarding the driving force of a fluid pressure control element, a servo motor including a motor section that drives a hydraulic pump and an amplifier that drives the motor section, and a controller that outputs a control command to the servo motor based on an input result to the operation input device. The controller obtains the fluid pressure of a working fluid based on the operation conditions regarding the input driving force, computes the output torque of the motor section based on the relationship between the fluid pressure and the output torque that are stored in advance, and outputs the computed output torque to the amplifier as a control command of the torque limitation value of the servo motor. | 07-03-2014 |
20150273750 | MOLD-CLAMPING DEVICE, INJECTION-MOLDING DEVICE, AND METHOD FOR OPENING AND CLOSING MOLD - A mold-clamping device includes a fixed mold plate including a fixed mold; a movable mold plate including a movable mold; a hydraulic cylinder allowing the movable mold plate to approach or be separated from the fixed mold plate; a hydraulic pressure supply source supplying a hydraulic fluid to the hydraulic cylinder; and a control unit performing driving control on the hydraulic pressure supply source. The control unit includes a flow rate decrease control unit for deceleration for decreasing a flow rate of the hydraulic fluid according to a deceleration gradient set in advance when a movement of the movable mold plate is decelerated according to the deceleration gradient, and a flow rate increase control unit for controlling the flow rate of the hydraulic fluid to increase when the flow rate of the hydraulic fluid is decreased according to the deceleration gradient by the flow rate decrease control unit. | 10-01-2015 |
Patent application number | Description | Published |
20110193145 | CRYSTAL PHASE STABILIZING STRUCTURE - It is possible to achieve the above interface structure stabilization by forming a structure in which a fraction of Ni atoms are substituted with Pt atoms only in the first interface layer, thereby lowering the interface energy while suppressing the variation of the characteristics of NiSi and NiSi/Si interface to the minimum extent. Therefore, it is possible to contribute to the improvement of the yield ratio of elements or the improvement of reliability through the stabilization of the crystal phase of NiSi. The NiSi is formed, for example, on the surface layer of a source drain in a transistor. | 08-11-2011 |
20120104614 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SEMICONDUCTOR DEVICE - A semiconductor device manufacturing method which prevents the resistance of a Ni silicide layer from increasing due to an additive element. First, a reaction control layer which contains a metallic element with an atomic number greater than Ni and does not contain Ni is formed over a silicon layer. Then, Ni is deposited over the reaction control layer and the silicon layer, reaction control layer and Ni are heat-treated to form a Ni silicide layer in the silicon layer. It is preferable that the reaction control layer be comprised of a metallic element with an atomic number greater than Ni. | 05-03-2012 |
20130092949 | SEMICONDUCTOR DEVICE, SEMICONDUCTOR SUBSTRATE, METHOD FOR MANUFACTURING DEVICE, AND METHOD FOR MANUFACTURING SEMICONDUCTOR SUBSTRATE - A second epitaxial layer is grown epitaxially over a first epitaxial layer. The first epitaxial layer includes an epitaxially grown layer and a defect layer. The defect layer is disposed over the epitaxially grown layer and serves as a surface layer of the first epitaxial layer. The defect density of the defect layer is 5×10 | 04-18-2013 |
20130168690 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SEMICONDUCTOR DEVICE - A first nitride semiconductor layer contains Ga. The first nitride semiconductor layer is, for example, a GaN layer, an AlGaN layer, or an AlInGaN layer. Then, an aluminum oxide layer has tetra-coordinated Al atoms each surrounded by four O atoms and hexa-coordinated Al atoms each surrounded by six O atoms as Al atoms in the interface region with respect to the first nitride semiconductor layer. The interface region is a region apart, for example, by 1.5 nm or less from the interface with respect to the first nitride semiconductor layer. Then, in the interface region, the tetra-coordinated Al atoms are present by 30 at % or more and less than 50 at % based on the total number of Al atoms. | 07-04-2013 |
20140363982 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SEMICONDUCTOR DEVICE - A first nitride semiconductor layer contains Ga. The first nitride semiconductor layer is, for example, a GaN layer, an AlGaN layer, or an AlInGaN layer. Then, an aluminum oxide layer has tetra-coordinated Al atoms each surrounded by four ◯ atoms and hexa-coordinated Al atoms each surrounded by six ◯ atoms as Al atoms in the interface region with respect to the first nitride semiconductor layer. The interface region is a region apart, for example, by 1.5 nm or less from the interface with respect to the first nitride semiconductor layer. Then, in the interface region, the tetra-coordinated Al atoms are present by 30 at % or more and less than 50 at % based on the total number of Al atoms. | 12-11-2014 |
20150014682 | SEMICONDUCTOR DEVICE - Disclosed is a semiconductor device in which the quality of an oxide semiconductor film is stabilized, while the property that an oxide semiconductor has high mobility is being utilized. The semiconductor device includes an oxide semiconductor layer and an electrode. The electrode is coupled to one surface of the oxide semiconductor layer. A portion of the oxide semiconductor layer, spanning from the one surface to a depth of t, becomes an ordered layer. The ordered layer is an area including a plurality of ordered regions in each of which the arrangement of atoms is compliant with a specific rule. The maximum width of the ordered region in a section in a direction perpendicular to the one surface is 2 nm or less. | 01-15-2015 |
20160005792 | SEMICONDUCTOR MEMORY DEVICE, AND METHOD FOR PRODUCING THE SAME - Provided is a semiconductor memory device (resistance random access memory element) improved in properties. A Ru film is formed as a film of a lower electrode by sputtering, and a Ta film is formed thereonto by sputtering. Next, the Ta film is oxidized with plasma to oxidize the Ta film. In this way, a compound Ta | 01-07-2016 |
Patent application number | Description | Published |
20090098228 | AGENT AND METHOD FOR IMPROVEMENT OF IMPAIRMENT OF LEARNING AND MEMORY - An improving agent for impairment of learning and memory containing yokukansan is provided as an easy and simple means for enhancing memory of aged people, etc. and for improving the impairment of learning and memory. | 04-16-2009 |
20100317028 | BIOASSAY METHOD FOR YOKUKANSAN - The invention intends to find out an in-vitro bioassay system capable of ensuring qualities of yokukansan to a higher degree, and provides a bioassay method for yokukansan, comprising competitively reacting labeled ligand and a test sample containing yokukansan with cells or cell membranes expressing serotonin 1A receptors, and measuring binding activity of yokukansan from the amount of the labeled ligand bound, and a bioassay method for yokukansan, comprising reacting labeled GTP and a test sample containing yokukansan with cells or cell membranes expressing serotonin 1A receptors, and measuring receptor-agonist activity of yokukansan from the amount of the labeled GTP bound. | 12-16-2010 |
20110027821 | METHOD OF BIOASSAYING YOKUKANSAN - The invention intends to find out a bioassay system with an in-vitro test capable of ensuring the higher quality of yokukansan, and provides a bioassay method for yokukansan, comprising adding glutamate in an amount sufficient to induce cell death and yokukansan to a medium for culturing cells, and evaluating pharmacological activity value of yokukansan from viability of the cultured cells in the medium. | 02-03-2011 |
Patent application number | Description | Published |
20100196944 | METHOD OF BIOASSAYING YOKUKANSAN - To find out an in-vitro bioassay system capable of ensuring qualities of yokukansan to a higher degree, it is intended to provide a method of bioassaying yokukansan characterized by comprising adding a yokukansan-containing test sample to astroglial cells to be cultivated under the condition of thiamine deficiency, and then determining the pharmacological activity value of yokukansan based on the glutamic acid or neutral red intake level in the cultivated astroglial cells. | 08-05-2010 |
20100313709 | METHOD FOR MANUFACTURING ALLOY POWDERS BASED ON TITANIUM, ZIRCONIUM AND HAFNIUM, ALLOYED WITH THE ELEMENTS NI, CU, TA, W, RE, OS AND IR - A method for manufacturing alloy powders based on titanium, zirconium and hafnium alloyed with the elements Ni, Cu, Ta, W, Re, Os, and Ir is described in which an oxide of Ti and Zr and Hf is mixed with a metal powder of the elements named and with a reducing agent, and wherein this mixture is heated in a furnace, optionally under a argonate atmosphere or, optionally under hydrogen atmosphere until the reducing reaction begins, the reaction product is leached and then washed and dried, wherein the oxide used has an average grain size of 0.5 to 20 μm, a specific surface area according to BET of 0.5 20 m | 12-16-2010 |
20110111426 | METHOD OF BIOASSAYING YOKUKANSAN - The invention intends to find out a bioassay system with an in-vitro test capable of ensuring the higher quality of yokukansan, and provides a bioassay method for yokukansan, comprising competitively reacting a labeled ligand and yokukansan with cells or cell membranes expressing glutamate receptors, measuring the binding activity of yokukansan, and evaluating the pharmacological activity value of yokukansan from the measurement value. | 05-12-2011 |
Patent application number | Description | Published |
20130224958 | THROUGH HOLE FORMING METHOD - Provided are a method of forming a through hole, which can inhibit misalignment between central axes of holes in both surfaces of a substrate, which is free from metal contamination, and which inhibits notching so as to improve the dimensional accuracy, the method including: preparing a silicon substrate; preparing a supporting substrate for supporting the silicon substrate; fixing the silicon substrate and the supporting substrate to form a composite substrate; and carrying out dry etching to the composite substrate from a silicon substrate side of the composite substrate toward a supporting substrate side of the composite substrate to form a through hole in the silicon substrate, in which the supporting substrate in the preparing a supporting substrate has a hole formed at a region corresponding to a region of the through hole to be formed in the silicon substrate, on a surface of the supporting substrate facing the silicon substrate. | 08-29-2013 |
20140023176 | RADIATION GENERATING APPARATUS AND RADIATION IMAGING SYSTEM - Provided is a radiation generating apparatus, including: a radiation generating unit for emitting radiation; and a movable diaphragm unit including a light projecting/sighting system for making a simulation display of a radiation field with visible light. The light projecting/sighting system includes: a light source of the visible light; a light guiding plate that is provided across a radiation axis, and causes the visible light from the light source to exit from a front surface of the light guiding plate; and a louver that gives directivity to the visible light exiting from the front surface of the light guiding plate. | 01-23-2014 |
20140037055 | RADIATION EMISSION TARGET, RADIATION GENERATING TUBE, AND RADIOGRAPHY SYSTEM - A radiation emission target includes a target layer that generates radiation when irradiated with an electron beam and a substrate composed of diamond, the substrate supporting the target layer. The substrate has a Knoop hardness of 60 GPa or more and 150 GPa or less. | 02-06-2014 |
20140087562 | METHOD FOR PROCESSING SILICON SUBSTRATE AND METHOD FOR PRODUCING CHARGED-PARTICLE BEAM LENS - A method for processing a silicon substrate includes forming a mask layer on the silicon substrate; forming a hole is farmed in the silicon substrate by alternately repeating (i) an etching step in which plasma etching is performed in a thickness direction of the silicon substrate using the mask layer as a mask and (ii) a deposition step in which a protection film is deposited on an inner wall of the hole formed in the etching step; removing the protection film; and a planarizing a side wall of the hole by etching the inner wall of the hole from which the protection film has been removed. The mask layer includes a material that withstands the removal step. In the planarization step, the inner wall of the hole is etched using the mask layer as a mask. | 03-27-2014 |
20140112442 | RADIATION GENERATING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation generating apparatus includes a radiation generating unit and a diaphragm unit that functions as a projector-collimator configured to simulate a radiation field with a visible-light field. The diaphragm unit includes a light source configured to generate visible light, an optical lens configured to control a state of diffusion of the visible light emitted from the light source, and field-limiting blades. The light source and the optical lens are provided between a radiation emission window and the field-limiting blades. The light source is movable into and retractable from a path of radiation generated by the radiation generating unit. | 04-24-2014 |
20140205071 | TRANSMISSION-TYPE X-RAY TARGET AND RADIATION GENERATING TUBE INCLUDING THE SAME - A transmission-type X-ray target includes a flat plate-shaped diamond substrate having a first surface and a second surface facing the first surface and a target layer that is located on the first surface. A residual stress of the first surface is lower than a residual stress of the second surface. | 07-24-2014 |
20140254754 | RADIATION GENERATING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation generating apparatus including: a radiation generating unit for emitting radiation through a transmission window; and a movable diaphragm unit including a restricting blade for adjusting a size of a radiation field and a light projecting and collimating device for making simulation display of the radiation field with a visible light field, in which the light projecting and collimating device includes a light source for emitting visible light, and a reflection plate disposed obliquely to a radiation center axis, the reflection plate having a reflection surface for reflecting the visible light and transmitting the radiation; the visible light field is formed of the visible light which is emitted from the light source and is reflected by the reflection plate; and a compensating member having a thickness variation for reducing unevenness of the radiation emitted in the radiation field is disposed on a radiation exit side of the reflection plate. | 09-11-2014 |
20140369471 | TRANSMISSIVE TARGET, X-RAY GENERATING TUBE INCLUDING TRANSMISSIVE TARGET, X-RAY GENERATING APPARATUS, AND RADIOGRAPHY SYSTEM - A transmissive target includes a target layer configured to include target metal and generate X-ray when receiving electrons and a substrate configured to support the target layer and include carbon as a main component. A carbide region including carbide of the target metal and a non-carbide region including the target metal are disposed in a mixed manner on a boundary surface between the substrate and the target layer on a target layer side. | 12-18-2014 |
20150036801 | RADIATION GENERATING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation generating apparatus | 02-05-2015 |
20150162161 | TRANSMITTING-TYPE TARGET AND X-RAY GENERATION TUBE PROVIDED WITH TRANSMITTING-TYPE TARGET - A transmissive-type target includes a target layer, and a transmissive substrate configured to support the target layer. The transmissive substrate has a pair of surfaces facing each other and is formed of polycrystalline diamond. In the transmissive substrate, one of the pair of surfaces includes polycrystalline diamond having a first average crystal grain diameter which is smaller than a second average crystal grain diameter of polycrystalline diamond included on the other surface opposing thereto. The target layer is supported by any one of the pair of surfaces. | 06-11-2015 |
20150303022 | TARGET AND X-RAY GENERATING TUBE INCLUDING THE SAME, X-RAY GENERATING APPARATUS, X-RAY IMAGING SYSTEM - The target includes a target layer configured to be irradiated with an electron to generate an X-ray and a support substrate configured to support the target layer. The support substrate includes a polycrystalline diamond and includes multiple structure planes having different area densities of plane orientations from one another. The target layer is supported by the support substrate at a structure plane with a smaller area density of the {101} plane than the area density of the {100} plane and the area density of the {111} plane. | 10-22-2015 |
20150311026 | TRANSMISSION TYPE TARGET, RADIATION GENERATING TUBE HAVING THE TRANSMISSION TYPE TARGET, RADIATION GENERATOR HAVING THE RADIATION GENERATING TUBE, AND RADIATION IMAGING APPARATUS HAVING THE RADIATION GENERATOR - The present invention relates to a transmission type target having a diamond base material as the transmissive base material. The transmission type target can inhibit the composition from varying with the drive history of the transmission type target and can inhibit the output of radiation from varying over a long time. The transmission type target includes a target layer containing a metal carbide constituted of at least one metal selected from the group consisting of molybdenum, tantalum, and tungsten and carbon; and a diamond base material supporting the target layer. | 10-29-2015 |
Patent application number | Description | Published |
20110233852 | PRINTING APPARATUS AND PRINTED-MATERIAL PROCESSING APPARATUS - A stack state of a plurality of trays is collectively determined and is notified in steps. A printing apparatus includes an image forming unit configured to form an image on a sheet and create a printed material, a plurality of storage units each configured to store the printed material created by the image forming unit, a sorter unit configured to output the printed material to the plurality of storage units, and a determining unit configured to determine whether the plurality of storage units are in a nearly full state in which printed material is stored in almost all of the plurality of storage units. | 09-29-2011 |
20140104334 | PRINTING APPARATUS AND PRINT CONTROL METHOD - An embodiment of this invention is directed to increasing the number of printable images on a continuous sheet and throughput when printing an image in which images of different sizes coexist and are arranged. Upon printing plural images by using a full-line inkjet printhead while conveying the sheet, the time during which no ink is discharged between successive images is analyzed from inputted image data for each nozzle of the printhead. Based on the analysis result, it is determined whether preliminary discharge is necessary during printing of the plural images. If preliminary discharge is necessary, print data to be used by the printhead is generated by adding, to the image data, data for preliminary discharge. Ink is discharged from the printhead based on the generated print data. | 04-17-2014 |
20140131941 | PRINTING APPARATUS AND PRINTED-MATERIAL PROCESSING APPARATUS - A stack state of a plurality of trays is collectively determined and is notified in steps. A printing apparatus includes an image forming unit configured to form an image on a sheet and create a printed material, a plurality of storage units each configured to store the printed material created by the image forming unit, a sorter unit configured to output the printed material to the plurality of storage units, and a determining unit configured to determine whether the plurality of storage units are in a nearly full state in which printed material is stored in almost all of the plurality of storage units. | 05-15-2014 |
20150077264 | PRINTING APPARATUS AND PRINTED-MATERIAL PROCESSING APPARATUS - A stack state of a plurality of trays is collectively determined and is notified in steps. A printing apparatus includes an image forming unit configured to form an image on a sheet and create a printed material, a plurality of storage units each configured to store the printed material created by the image forming unit, a sorter unit configured to output the printed material to the plurality of storage units, and a determining unit configured to determine whether the plurality of storage units are in a nearly full state in which printed material is stored in almost all of the plurality of storage units. | 03-19-2015 |