Tadashi Yoshida
Tadashi Yoshida, Ebina-Shi JP
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20110048225 | CYLINDER APPARATUS - On a protrusion-formation portion of a rod guide, there are provided a first annular protrusion for supporting a radially outer side of a lid body and a second annular protrusion for supporting a radially inner side of the lid body. Accordingly, when an upper end side of an outer cylinder is caulked, the first annular protrusion provided to the rod guide is allowed to sandwich and fix the radially outer side of the lid body between the first annular protrusion and the caulked portion. Further, although the lid body is strongly pressed to the rod guide with use of a presser at the time of caulking the upper end side of the outer cylinder, a pressing force acting onto the lid body can be received by the second annular protrusion. As a result, the lid body is prevented from being permanently deformed. With this structure, the lid body can be formed to have a small thickness dimension. | 03-03-2011 |
20130025446 | CYLINDER APPARATUS - A cylinder apparatus includes a flow path which is provided in a valve member and through which a fluid circulates when a rod is moved; a disk valve which opens and closes the flow path; and a spring member which presses the disk valve in an axial direction. The spring member includes a first spring which comes into contact with the disk valve in a state in which the disk valve closes the flow path, and a second spring which comes into contact with the disk valve in a state in which the disk valve opens the flow path. | 01-31-2013 |
Tadashi Yoshida, Kamisu-Shi JP
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20110027134 | DECOMPOSING SYSTEM FOR POLYISOCYANATE RESIDUES, AND START-UP METHOD FOR THE SAME - An object of the invention is to provide a decomposing system for polyisocyanate residues that is capable of suppressing reaction of polyisocyanate residues with high temperature and high pressure water to allow smooth start-up of the operation, and a start-up method for the decomposing system for the polyisocyanate residues. The decomposing system is used for hydrolyzing the polyisocyanate residues to polyamine using high temperature and high pressure water, comprising a hydrolyzer, a water feed pipe connected to the hydrolyzer, a residual feed pipe connected to the water feed pipe, a solvent feed line for filling an organic solvent in a solvent filling portion of the residual feed pipe, and a solvent draining line. Upon start-up of the operation, the organic solvent is previously filled in the solvent filling portion via the solvent feed line and the solvent draining line, first, and then, the high temperature and high pressure water is fed from the water feed pipe to the hydrolyzer. Then, the organic solvent is fed from the residual feed pipe to the water feed pipe, first, and then, the polyisocyanate residues are fed thereto. | 02-03-2011 |
Tadashi Yoshida, Osaka JP
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20080222128 | Content Data Retrieval Apparatus - The present invention provides a content data retrieval apparatus capable of appropriately narrowing down the range of search targets even in the case where a distribution of attribute values of a group of contents regarded as search targets is uneven. | 09-11-2008 |
20110001793 | THREE-DIMENSIONAL SHAPE MEASURING APPARATUS, INTEGRATED CIRCUIT, AND THREE-DIMENSIONAL SHAPE MEASURING METHOD - It is possible to perform three-dimensional shape measurement with easy processing, regardless of whether an object is moving or not. An image capturing unit ( | 01-06-2011 |
Tadashi Yoshida, Nagasaki JP
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20100196749 | CELL CONTAINER AND BATTERY - Disclosed is a cell container offering improved vibration resistance and improved shock resistance as well as maintaining the battery performance and ensuring the reliability. Specifically disclosed is a cell container comprising: an insulative case ( | 08-05-2010 |
20110250477 | BATTERY MODULE - Safety is ensured even when installed in mobile objects such as electric vehicles, deep-sea explorers, and so on. A battery module ( | 10-13-2011 |
Tadashi Yoshida, Tsurugashima JP
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20100074599 | INFORMATION RECORDING MEDIUM AND REPRODUCING APPARATUS - An information recording medium ( | 03-25-2010 |
Tadashi Yoshida, Ibaraki JP
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20090137847 | Decomposing system for polyisocyanate residues, and start-up method for the same - An object of the invention is to provide a decomposing system for polyisocyanate residues that is capable of suppressing reaction of polyisocyanate residues with high temperature and high pressure water to allow smooth start-up of the operation, and a start-up method for the decomposing system for the polyisocyanate residues. The decomposing system is used for hydrolyzing the polyisocyanate residues to polyamine using high temperature and high pressure water, comprising a hydrolyzer, a water feed pipe connected to the hydrolyzer, a residual feed pipe connected to the water feed pipe, a solvent feed line for filling an organic solvent in a solvent filling portion of the residual feed pipe, and a solvent draining line. Upon start-up of the operation, the organic solvent is previously filled in the solvent filling portion via the solvent feed line and the solvent draining line, first, and then, the high temperature and high pressure water is fed from the water feed pipe to the hydrolyzer. Then, the organic solvent is fed from the residual feed pipe to the water feed pipe, first, and then, the polyisocyanate residues are fed thereto. | 05-28-2009 |
20090216042 | Concentrating method, treating method, concentrating system and treating system for polyisocyanate residues - A concentrating method and a concentrating system for concentrating polyisocyanate residues that that can effectively concentrate polyisocyanate residues from crude polyisocyanate comprising polyisocyanate and polyisocyanate residues in a short time and can also suppress increase in viscosity to provide stable transport of the residues and prevent blockage of the transport line, and a treating method and a treating system for decomposing the concentrated components to polyamine. | 08-27-2009 |
20090275776 | PROCESS AND EQUIPMENT FOR THE DECOMPOSITION AND RECOVERY OF ISOCYANATE COMPOUNDS - The present invention relates to a method for decomposing and recovering an isocyanate compound, which comprises: continuously mixing and dispersing into water at high pressure and high temperature an isocyanate compound having at least one isocyanate group or group derived from an isocyanate group in a molten state or solution state, supplying a liquid mixture containing the isocyanate compound and the water at high pressure and high temperature continuously to a reactor, followed by subjecting the isocyanate compound to a decomposition reaction in the reactor, and recovering a raw material for the isocyanate compound or a derivative thereof; and an apparatus for decomposing and recovering an isocyanate compound, which comprises: a reactor which brings water at high pressure and high temperature into contact with an isocyanate compound having at least one isocyanate group or group derived from an isocyanate group to cause a decomposition reaction, a water supply line which continuously supplies the water at high pressure and high temperature to a reactor, a compound supply line which continuously supplies the isocyanate compound in a molten state or solution state to the water supply line, an on-off valve which communicates the compound supply line with a vicinity of a communication portion of the water supply line to the reactor, a dehydrating device which conducts a dehydration of a decomposition reaction product discharged from the reactor, and a purification device which purifies the decomposition reaction product after the dehydration. | 11-05-2009 |
20110190534 | METHOD FOR DECOMPOSING AND RECOVERING ISOCYANATE COMPOUND - The present invention relates to a method for decomposing and recovering an isocyanate compound, which comprises: continuously mixing and dispersing into water at high pressure and high temperature an isocyanate compound having at least one isocyanate group or group derived from an isocyanate group in a molten state or solution state, supplying a liquid mixture containing the isocyanate compound and the water at high pressure and high temperature continuously to a reactor, followed by subjecting the isocyanate compound to a decomposition reaction in the reactor, and recovering a raw material for the isocyanate compound or a derivative thereof; and an apparatus for decomposing and recovering an isocyanate compound, which comprises: a reactor which brings water at high pressure and high temperature into contact with an isocyanate compound having at least one isocyanate group or group derived from an isocyanate group to cause a decomposition reaction, a water supply line which continuously supplies the water at high pressure and high temperature to a reactor, a compound supply line which continuously supplies the isocyanate compound in a molten state or solution state to the water supply line, an on-off valve which communicates the compound supply line with a vicinity of a communication portion of the water supply line to the reactor, a dehydrating device which conducts a dehydration of a decomposition reaction product discharged from the reactor, and a purification device which purifies the decomposition reaction product after the dehydration. | 08-04-2011 |
Tadashi Yoshida, San Diego, CA US
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20080231873 | INK SET AND METHOD FOR MAKING THE SAME - One embodiment of an ink set includes a light gray ink, a medium gray ink, and a black ink. Each of the inks in the ink set includes a carboxylic polymer. The light gray ink has a carboxylic polymer load equal to or greater than about 3 wt %. The medium gray ink has a carboxylic polymer load ranging from about 1 wt % to about 3 wt %. The black ink has a carboxylic polymer load ranging from about 0.5 wt % to about 2 wt %. Another embodiment of an ink set includes at least one of a light cyan, a light magenta, or a light gray ink having a carboxylic polymer load equal to or greater than about 3 wt %, and an other ink selected from a black ink or a colored ink. | 09-25-2008 |
Tadashi Yoshida, Hitachi-Shi JP
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20110206968 | ASSEMBLED BATTERY SYSTEM - The assembled battery system according to the present invention includes at least two non-aqueous electrolyte secondary cells, each including a positive electrode that occludes and emits lithium ions, a negative electrode that occludes and emits lithium ions, and a non-aqueous electrolyte comprising an electrolyte dissolved in a non-aqueous solvent, all received in a parallelepiped cell case. These cells are arranged so that each larger area side of an adjacent pair of the parallelepiped cell case faces in parallel one another. A cooling member with a cooling medium flow conduit is provided between each opposing pair of larger area cell case sides, and cooling medium flowing in this conduit directly contacts the sides of the parallelopiped cell cases that define the two opposite sides of the cooling conduit. | 08-25-2011 |
20110223452 | Secondary Battery Module and Secondary Battery Module Apparatus - A secondary battery module comprises a casing in which vents are formed so as to allow outside air to flow in a vertical direction and one or more partition walls partition an internal space of the casing into a plurality of cell chambers. The partition wall comprises the pipe member as communication path to communicate between the cell chambers and the outside of the casing so as to allow outside air to be introduced into the internal space of the cell chambers. The secondary battery module further comprises a plurality of rod-shaped battery cells housed in the cell chambers and beams to support the battery cells along a horizontal direction and at predetermined intervals in the vertical direction in the cell chambers such that a cell axis direction is perpendicular to the vertical direction and extends along the partition wall. | 09-15-2011 |
Tadashi Yoshida, Ishikawa JP
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20120294256 | TERMINAL, BASE STATION, RESPONSE METHOD, AND RETRANSMISSION CONTROL METHOD - Disclosed are a terminal, a base station, a response method, and a retransmission control method, which are capable of switching the response signal transmission method while preventing throughput degradation and without increasing the number of signaling bits. A bundling determination unit ( | 11-22-2012 |
20150043466 | TRANSMISSION DEVICE, RECEIVING DEVICE, TRANSMISSION METHOD, AND RECEIVING METHOD - This invention is a transmission device capable of enhancing the reception characteristics of a terminal when employing transmit diversity using two antenna ports in an ePDCCH. In a base station ( | 02-12-2015 |
Tadashi Yoshida, Hitachi JP
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20130177791 | Electrical Storage Apparatus - An electrical storage apparatus | 07-11-2013 |
Tadashi Yoshida, Ishikawa-Ken JP
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20130340943 | BONDING APPARATUS - A bonding apparatus includes: a bonding head including a bonding tool, on which a suction surface for a chip is formed, and a heating unit; a chip supply unit; a bonding stage on which a substrate is arranged; a head movement unit configured to move the bonding head between a chip supply position by the chip supply unit and a bonding position on the bonding stage; and a cooling unit configured to cool the bonding tool. The bonding tool is configured such that the chip is supplied at the chip supply position, then is heated and bonded on the substrate at the bonding position, and is then cooled by the cooling unit. The cooling is performed by making the suction surface come in contact with a cooling surface of the cooling unit. | 12-26-2013 |
Tadashi Yoshida, Hagagun JP
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20140175708 | THREE-DIMENSIONAL OBJECT BUILDING APPARATUS AND METHOD FOR BUILDING THREE-DIMENSIONAL OBJECT - The three-dimensional object building apparatus includes a powder delivering unit that delivers a powder on an object building area, a powder flattening device that flattens the powder delivered from the powder delivering unit to form a powder layer, and a light beam radiating unit that is disposed above the object building area and radiates a light beam on the powder layer to sinter or melt solidify the powder for building an object. The three-dimensional object building apparatus also includes a transferring mechanism that moves the light beam radiating unit in three-dimensional directions, and a shroud that moves integrally with the light beam radiating unit and surrounds a space above an area of the powder layer that is smaller than the object building area around a radiation of the light beam. The powder delivering unit and the powder flattening device move integrally with the light beam radiating unit. | 06-26-2014 |
Tadashi Yoshida, Tokyo JP
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20150298479 | INKJET RECORDING MEDIUM - An inkjet recording medium, comprising an ink-receiving layer containing a pigment, a binder and an inkjet ink-fixing agent comprising a cationic compound disposed on at least one surface of a base paper, wherein 50% or more by weight of calcium carbonate is contained in terms of a solid content based on a total amount of the pigment contained in the ink-receiving layer; 75 to 90 parts by weight of the pigment, 1 to 10 parts by weight of the binder and 5 to 20 parts by weight of the inkjet ink-fixing agent are contained based on 100 parts by weight of the ink-receiving layer; the drop water absorbency of the ink-receiving layer (according to the drop water absorbency defined in Japan Technical Association of the Pulp and Paper Industry, J. TAPPI, No. 32-2:2000 except that a drop water amount is 0.001 ml) is 200 seconds or less; and a Stockigt sizing degree according to WS-P-8122 for the inkjet recording medium is 5 seconds or less. | 10-22-2015 |