Marubayashi, JP
Hiroki Marubayashi, Obu-City JP
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20140219316 | TEMPERATURE DETECTION DEVICE - A temperature detection device is connected to a temperature sensor, and includes two resistors, a transistor and a microcomputer. The temperature sensor is connected to ground. The resistors are connected in series between the temperature sensor and a power supply line. The transistor is connected to the resistor, which is at the power supply line side. The microcomputer switches over a characteristic of a sensor voltage, which is developed at a junction between the resistor and the temperature sensor, to a first characteristic and a second characteristic by switching over the transistor to an on-state and an off-state. The microcomputer calculates a temperature based on the sensor voltage. When the transistor is in the on-state, the microcomputer detects a voltage developed at a low-potential side output terminal of the transistor and calculates the temperature based on the transistor output voltage and the sensor voltage. | 08-07-2014 |
Hiromasa Marubayashi, Chigasaki-Shi JP
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20080220193 | Catalyst for olefin polymerization, method for producing olefin polymer, method for producing propylene-based copolymer, propylene polymer, propylene-based polymer composition, and use of those - A catalyst for olefin polymerization, comprising: | 09-11-2008 |
20130344273 | MOLDED ARTICLE - A molded article formed of a composition including 100 parts by weight of at least one kind of resin selected from the group consisting of thermoplastic resins and thermosetting resins, and 0.01 parts by weight to 10,000 parts by weight of a silylated polyolefin, which is obtained by a reaction between a silicon-containing compound containing a structural unit represented by Formula (1) and a vinyl group-containing compound having a defined number average molecular weight, a derivative thereof, or a mixture of these, | 12-26-2013 |
Hiromasa Marubayashi, Kanagawa JP
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20090165847 | Sealing Material for Solar Battery, Sheet for Sealing Solar Battery, and Solar Battery Module Using the Same - [Task] To provide a solar battery sealing material obtained by using an olefin-based (co)polymer, which is excellent in flexibility, stress-absorbing property, transparency, and impact-resistant strength at low temperature, and with which the productivity is improved by omitting a cross-linking treatment if necessary. | 07-02-2009 |
Hironori Marubayashi, Hyogo JP
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20110269014 | SEALING BODY FOR A SEALED CELL, AND A SEALED CELL USING THE SEALING BODY | 11-03-2011 |
Hironori Marubayashi, Sumoto-Shi JP
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20120058390 | TERMINAL FOR SEALED BATTERY AND MANUFACTURING METHOD THEREFOR - A negative electrode terminal includes an outer terminal of a solid flat rivet shape and an inner terminal of a hollow flat rivet shape. A hollow axle portion of the inner terminal is inserted in a first insulating member, an opening bored in a sealing plate, and a second insulating member so as to be insulated from the sealing plate. A columnar axle portion of the outer terminal is inserted into the hollow axle portion of the inner terminal and crimped thereto, so that a radially bulge-deformed portion is formed in an intermediate portion of the columnar axle portion. The hollow axle portion deforms into a shape matching the radially bulge-deformed portion and is crimped to the columnar axle portion, and its tip is curling-formed to match a curved surface between a brim portion and the columnar axle portion of the outer terminal. | 03-08-2012 |
Hironori Marubayashi, Moriguchi-Shi JP
Patent application number | Description | Published |
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20090233168 | SEALED BATTERY AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a sealed battery for the invention uses an outer can | 09-17-2009 |
20120315533 | SEALED BATTERY AND METHOD FOR MANUFACTURING THE SAME - A sealed battery uses an outer can | 12-13-2012 |
Michiya Marubayashi, Tokyo JP
Patent application number | Description | Published |
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20100132768 | Solar Cell Module - A solar cell module is structured by laminating a plurality of layers including a cell arrangement layer, on which a plurality of solar battery cells are arranged. To improve the designing property and productivity, in a blank region, which is a region other than where the solar battery cells of the cell arrangement layer are arranged, a thin plate having a color tone same as that of the solar battery cells is arranged. The thin plate is arranged on the cell arrangement layer at a step same as a step in which the solar battery cells are arranged on the cell arrangement layer. | 06-03-2010 |
20100182761 | TERMINAL BOX - A terminal box for a solar cell module is composed of, a box body, an inner cover and an outer cover, wherein the box body includes a bottom plate, an outer plate arranged in an upright manner around the bottom plate, and an inner plate arranged also in an upright manner inside the outer plate to enclose a circuit housing area; the inner cover includes a top plate and a side plate extended downward from an outer circumference of the top plate, and is formed into a lid shape and fitted around an outer surface of the inner plate to cover the circuit housing area; and the outer cover is fitted around the outer plate of the box body to thereby cover the inner cover and the box body, wherein the terminal box further includes a fitting member that causes the inner cover to be fitted to the box body to thereby prevent the inner cover from being removed from the circuit housing area. | 07-22-2010 |
Norio Marubayashi, Osaka JP
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20110177366 | BATTERY PACK - A battery pack of the present invention includes: a battery assembly including a plurality of batteries having a sealed portion, the plurality of batteries being connected to each other; a terminal portion electrically connected to the battery assembly and outputting electric power; and a composite layer structure including a heat-absorbing layer and a heat-conductive layer layered on the heat-absorbing layer, the composite layer structure being arranged at least at a part of a periphery of the battery assembly. The heat-absorbing layer has a specific heat of 1,000 J/kg·° C. or more. The heat-conductive layer has a heat conductivity of 10 W/m·K or more. This configuration allows for a small, light, and highly safe battery pack that is free from battery pack damage even when a battery in the battery pack has trouble and emits a high-temperature inflammable gas to expose the inside of the battery pack to a high-temperature environment. | 07-21-2011 |
Norio Marubayashi, Hyogo JP
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20090017367 | POWER MODULE - The power module of the invention includes: a cell stack including a plurality of cells that are stacked; a pair of end plates pressing and sandwiching the cell stack in the stacking direction; and a binding member joining the pair of end plates. The binding member has a recess that fits with an edge of the cell stack extending in the stacking direction. This ensures that the cells are bound together firmly and reliably. | 01-15-2009 |
Tetsuya Marubayashi, Toyama-Shi JP
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20090116936 | SUBSTRATE PROCESSING APPARATUS - Provided is a substrate processing apparatus. The substrate processing apparatus includes a reaction tube, a substrate holder, a gas nozzle, a heating unit, a temperature detector, and an exhaust unit. The reaction tube accommodates and processes substrates. The substrate holder holds substrates stacked at predetermined intervals in the reaction tube. The gas nozzle is installed along a stacked direction of the substrates. The heating unit heats the substrates. The temperature detector is installed along the stacked direction of the substrates. The exhaust unit exhausts an inside atmosphere of the reaction tube. Each of the gas nozzle and the temperature detector includes first and second parts and is supported by a narrow tube supporting member including first and second supporting parts. The first supporting part makes contact with the first part. The second supporting part is parallel with the second part and supports the second part. | 05-07-2009 |
20100058984 | Substrate Processing Apparatus - Process gas discharged from a bypass pipe to a gas exhaust system can be prevented from diffusing back to the inside of a process chamber without having to install a dedicated vacuum pump at the downstream side of the bypass pipe. The substrate processing apparatus includes a process chamber accommodating a substrate, a gas supply system supplying process gas from a process gas source to the process chamber for processing the substrate, a gas exhaust system configured to exhaust the process chamber, two or more vacuum pumps installed in series at the gas exhaust system, and a bypass pipe connected between the gas supply system and the gas exhaust system. The most upstream one of the vacuum pumps is a mechanical booster pump, and the bypass pipe is connected between the mechanical booster pump and the rest vacuum pumps located at a downstream side of the mechanical booster pump. | 03-11-2010 |
20100151682 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND SUBSTRATE PROCESSING APPARATUS - Formation of a boron (B) compound is suppressed on the inner wall of a nozzle disposed in a high-temperature region of a process chamber. A semiconductor device manufacturing method comprises forming a boron (B)-doped silicon film by simultaneously supplying at least a gas containing boron (B) as a constituent element and a gas containing chlorine (Cl) as a constituent element to a gas supply nozzle installed in a process chamber in a manner such that concentration of chlorine (Cl) is higher than concentration of boron (B) in the gas supply nozzle. | 06-17-2010 |