Ishiki
Kazushi Ishiki, Osaka JP
Patent application number | Description | Published |
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20130139885 | PHOTOELECTRIC CONVERSION DEVICE AND METHOD FOR PRODUCING SAME - This photoelectric conversion device comprises a glass substrate ( | 06-06-2013 |
20130154047 | PHOTOELECTRIC CONVERSION DEVICE AND METHOD FOR FABRICATING THE PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device includes a substrate, a plurality of photoelectric conversion cells formed on the main surface of the substrate, a current-collecting wiring formed on the plurality of photoelectric conversion cells, an output wiring connected to the current-collecting wiring, and a back-side protective member bonded to the plurality of photoelectric conversion cells via a sealing member in a manner such that the plurality of photoelectric conversion cells formed on the main surface of the substrate are interposed between the substrate and the back-side protective member via the sealing member. The current-collecting wiring and the output wiring are positioned such that the current-collecting wiring and the output wiring do not overlap with each other above the main surface of the substrate. | 06-20-2013 |
Kazushi Ishiki, Ichinomiya-Shi JP
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20100294332 | SOLAR CELL MODULE AND METHOD OF MANUFACTURING THE SAME - This solar cell module includes a plurality of conducting portions for electrically bonding solar cells and extraction electrodes to each other and a filler provided to cover the plurality of solar cells and the extraction electrodes. A plurality of first conducting portions arranged on the side of one end portion of a region where the plurality of solar cells are arranged and a plurality of second conducting portions arranged on the side of another end portion are asymmetrically arranged in plan view. | 11-25-2010 |
Kazuya Ishiki, Wako-Shi JP
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20090102188 | FALLING-OFF PREVENTION STRUCTURE FOR CONNECTOR - A falling-off preventing holder is provided to reliably connect a fuel pipe and a connector. First and second flanges project outwardly from an outer peripheral surface of the fuel pipe. The connector includes a larger diameter portion and a smaller diameter portion connected to the larger diameter portion via a step portion. A box-shaped falling-off preventing holder with an open surface is fitted to straddle the fuel pipe and the connector. First cutout of first end wall is fitted on the smaller diameter portion of the connector and abuts the step portion. Second end wall is fitted on the fuel pipe to abut the second flange. A pressure rib provided at the first end wall of the falling-off preventing holder is compressed by the step portion of the connector to be plastically deformed. A load in the connecting direction acting on the fuel pipe and the connector enables reliable connection. | 04-23-2009 |
Kazuya Ishiki, Wako JP
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20120017875 | FUEL SUPPLY SYSTEM OF VEE ENGINE - A fuel supply system of a vee engine includes a high-pressure fuel pump. A first delivery pipe is to distribute fuel to injectors disposed on a first bank. A second delivery pipe is to distribute the fuel to injectors disposed on a second bank. The fuel is to be supplied from the high-pressure fuel pump to the first delivery pipe through a first joint pipe. The fuel is to be supplied from the high-pressure fuel pump to the second delivery pipe through a second joint pipe. A direction of a connecting part of the first joint pipe on a side of the high-pressure fuel pump substantially matches a direction of thermal expansion of the first bank. A direction of a connecting part of the second joint pipe on a side of the high-pressure fuel pump substantially matches a direction of thermal expansion of the second bank. | 01-26-2012 |
20130133622 | FUEL SUPPLY APPARATUS FOR ENGINE - A fuel supply apparatus for an engine, includes a first cylinder group, a second cylinder group, first fuel injection valves, second fuel injection valves, a fuel supply pipe, a branch portion, a first connecting pipe, a second connecting pipe, a first delivery pipe, and a second delivery pipe. The branch portion has an inflow direction along which fuel is to flow from the fuel supply pipe into the branch portion. The branch portion has a first outflow direction along which fuel is to flow from the branch portion into the first connecting pipe. The branch portion has a second outflow direction along which fuel is to flow from the branch portion into the second connecting pipe. All of the inflow direction, the first outflow direction, and the second outflow direction are provided not to lie in a same straight line. | 05-30-2013 |
20150101696 | FUEL PIPE PROTECTIVE STRUCTURE - A fuel pipe protective structure includes a fuel pipe, a connecting member, and a protective member. The protective member is to protect a connection between the fuel pipe and the connecting member. The protective member includes a base and a cover. The base is to be connected to a vehicle body wall that defines an engine compartment. The cover is to be interposed between the connection and an internal combustion engine so as to cover the connection. The cover includes a guide. The guide is configured to cause the protective member to be plastically deformed in order to displace the connection in a receding direction in which the connection moves to avoid being caught by the internal combustion engine in a case where the internal combustion engine moves toward a vehicle interior upon collision of the vehicle. | 04-16-2015 |
Nobumoto Ishiki, Tokyo JP
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20140357015 | METHOD AND APPARATUS FOR MANUFACTURING LEAD WIRE FOR SOLAR CELL - A method of manufacturing a lead wire for a solar cell includes heating a wire material by a direct resistance heating or by an induction heating to reduce a 0.2% proof stress of the wire material while conveying the wire material and plating the wire material that is in a heated condition obtained by the direct resistance heating or by the induction heating while further conveying the wire material. An apparatus is configured to implement the method, and includes a plating bath, a conveyor mechanism configured to convey the wire material, a heater configured to heat the wire material, and a controller configured to control the conveyor mechanism and the heater. | 12-04-2014 |
Taishi Ishiki, Osaka JP
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20120140390 | PORTABLE ELECTRONIC APPARATUS - A portable electronic apparatus includes a first casing having a first display surface, a second casing having a second display surface, and a coupling mechanism which couples the first casing and the second casing. The first display surface and the second display surface are capable of displaying thereon characters, videos, and images. | 06-07-2012 |
Tatsuya Ishiki, Shiga JP
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20130306472 | BIOSENSOR - A biosensor is capable of preventing a sample from flowing out of the air hole to the outside with superior accuracy. The biosensor includes: a first substrate having an air hole; and a second substrate, the first and second substrates being laminated on each other, wherein the biosensor has a sample flow path between the first and second substrates, in a sample flow direction in the flow path, an upstream end of the flow path is in communication with a sample introduction port, and a downstream end of the flow path is in communication with the air hole, an upper surface of the flow path is formed of a surface of the first substrate facing the second substrate, and a region on the introduction port side of the upper surface of the flow path is a hydrophilic region, and a region on the air hole side of the upper surface of the flow path is a water-repellent region. | 11-21-2013 |
Toshihiro Ishiki, Ebina JP
Patent application number | Description | Published |
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20080316682 | Electronic device chassis and canister - In the invention, a finger board is bent like a “letter V”, and a thickness adjustment plate is provided between the finger boards of modules to be able to move, thereby being able to adjust the height of a finger. Such a configuration enables to increase the contact pressure of the finger by increasing the height of the finger when the finger is inserted, and when the finger is detached, reduce the contact pressure by reducing the height of the finger. This accordingly provides a shield chassis of suppressing any possible noise with no loss of insertability/removability. | 12-25-2008 |
20110016201 | MULTI NODE SERVER SYSTEM - A server system has, in addition to extensibility of scale-out type of a braid server system, extensibility of scale-up type by making SMP coupling among nodes. Each node has a unit for SMP coupling to other nodes. A module management unit responds to system configuration information to switch between a mode in which the node operates singularly as a braid server and a mode in which the node operates as a constituent module of an SMP server. Links among individual nodes are laid through equidistant wiring lines on a back plane and additionally a loop wiring line having a length equal to that of the inter-node link on the back plane is also laid in each node, thereby setting up synchronization among the nodes. Synchronization of reference clocks for SMP coupled nodes is also established. | 01-20-2011 |
Toshio Ishiki, Yao-Shi JP
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20150183555 | POUCH CONTAINER - A pouch container is provided with sack-like portions provided respectively to upper parts of the front-surface sheet and the rear-surface sheet. | 07-02-2015 |
Yoshikazu Ishiki, Shizuoka JP
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20100089084 | HEAT SOURCE APPARATUS AND METHOD OF STARTING THE APPARATUS - After a chiller unit is started, an opening command of 10 pulses is output to an electronic expansion valve, and after a predetermined period of time (at the time of starting with unload) elapses, an opening command of 100 to 150 pulses is output to open the electronic expansion valve up to a predetermined opening degree. Thereafter, a discharge side refrigerant super-heat TdSH is monitored and a closing command of 1 pulse/sec is output to the electronic expansion valve to drive the same in a closing direction in a short time until TdSH becomes 20 K. After TdSH has reached 20 K, a closing command of 1 pulse/3 sec is output to the electronic expansion valve, until TdSH becomes 25 K, to drive the electronic expansion valve 3 at a smaller speed in the closing direction than that speed in the closing direction until TdSH becomes 20 K. After TdSH reaches 25 K, it is judged that an operation has shifted to a stable operation, and the opening degree of the electronic expansion valve is controlled while a suction side refrigerant super-heat TsSH is monitored. | 04-15-2010 |