Patent application number | Description | Published |
20080280752 | Catalyst powder production method, catalyst powder and catalyst layer in fuel cell - A catalyst powder production method for constructing a catalyst layer in a fuel cell includes: forming a mixture that contains an electrolyte, a pore-forming material, and a catalyst-supporting particle that supports a catalyst; producing a composite powder in which the catalyst-supporting particle and the electrolyte are attached to a periphery of the pore-forming material by using the mixture; and producing the catalyst powder in the form of hollow particle by removing the pore-forming material from the composite powder. | 11-13-2008 |
20090029039 | Method of manufacturing membrane electrode assembly - A method of manufacturing a membrane electrode assembly for a fuel cell, in which a catalyst layer is disposed between an electrolyte membrane and a gas diffusion layer, includes producing a catalyst powder that is used to form the catalyst layer; and forming the catalyst layer by unevenly depositing the catalyst powder on at least one of the electrolyte membrane and the gas diffusion layer. | 01-29-2009 |
20090029234 | Method of manufacturing membrane electrode assembly, and membrane electrode assembly - A method of manufacturing a membrane electrode assembly for a fuel cell includes: producing a gas diffusion layer powder that is used to form a gas diffusion layer; forming a catalyst layer on an electrolyte membrane; and forming the gas diffusion layer on the catalyst layer by depositing the gas diffusion layer powder on the catalyst layer. | 01-29-2009 |
20120306311 | STATOR AND ROTATING ELECTRIC MACHINE - Provided is a stator that can reduce iron loss and ensure a fastening force for stator core segments. The stator of a generally hollow cylindrical shape includes a plurality of stator core segments arranged adjacent to one another in a circumferential direction of the stator and each having an outer surface on the outer side in a radial direction of the stator, and the same number of curved members as the stator core segments, the curved members extending in the circumferential direction, and each having a projecting portion curved to project toward the outer surface, contacting the outer surface and pressing the outer surface inward in the radial direction of the stator. | 12-06-2012 |
20140205932 | MANUFACTURING METHOD OF CATALYST INK, MANUFACTURING METHOD OF FUEL CELL, AND FUEL CELL - A catalyst ink for improving the performance of catalyst electrodes in a fuel cell is produced by the following procedure. A catalyst dispersion is prepared by dispersing catalyst-supported particles as conductive particles with a catalyst supported thereon in a solvent. A gel material having viscoelasticity is prepared by mixing an ionomer with a volatile solvent. A catalyst ink having a desired viscosity is produced by stirring and mixing the catalyst dispersion with the gel material. | 07-24-2014 |
Patent application number | Description | Published |
20100148593 | SUPERCONDUCTING APPARATUS AND VACUUM CONTAINER FOR THE SAME - A vacuum container for housing therein a superconducting apparatus includes first and second partition walls made of magnetic-permeable nonmetallic materials, respectively, and facing each other to form a vacuum heat insulation chamber that is adapted to cover a superconductor that generates a magnetic flux. The first and second partition walls are exposed to relatively higher and lower temperatures, respectively. The first partition wall includes a radiation surface emitting thermal radiation while the second partition wall includes an absorption surface absorbing the thermal radiation. One of the radiation surface and the absorption surface is provided with a metal layer group in an exposed manner relative to the other of the radiation surface and the absorption surface. The metal layer group includes a plurality of metal layers spaced apart from one another and the nonmetallic material appears between the plurality of metal layers. | 06-17-2010 |
20100148894 | SUPERCONDUCTING APPARATUS - A superconducting apparatus includes a magnetic field generating portion including a superconducting coil, an extremely low temperature generating portion maintaining the superconducting coil at an extremely low temperature and in a superconducting state, a container defining a heat insulation chamber that accommodates the superconducting coil, a first terminal electrically connected to the superconducting coil and supplying an electric power to the superconducting coil, a second terminal connected to an external electric power source and supplying the electric power to the first terminal in a case where the magnetic field generating portion is driven, and a heat penetration preventing element holding one of the first and second terminals and thermally separating the first and second terminals from each other in a case where a driving of the magnetic field generating portion is stopped, the heat penetration preventing element restraining a heat penetration from the second terminal to the first terminal. | 06-17-2010 |
20100164309 | SUPERCONDUCTING MOTOR APPARATUS - A superconducting motor apparatus includes a superconducting motor including a superconducting coil and a mover movable on a basis of a movable magnetic field generated by the superconducting coil when an electric power is supplied thereto, a container defining an outer vacuum heat insulation chamber that covers an outer side of the superconducting motor, an extremely low temperature generating portion cooling the superconducting coil of the superconducting motor to a temperature equal to or smaller than a critical temperature of the superconducting coil, and a vibration damping element restraining one of or both of a vibration of the superconducting motor and an external vibration from being propagated to the extremely low temperature generating portion. | 07-01-2010 |
20110025438 | SUPERCONDUCTING APPARATUS - A superconducting apparatus includes a superconducting member generating a magnetic field when an electric power is supplied to the superconducting member, a permeable yoke into which a magnetic flux of the magnetic field generated by the superconducting member permeates, and a conductive portion cooled to a low temperature state by a low temperature portion and cools the permeable yoke by thermally making contact therewith. | 02-03-2011 |
20110062806 | SUPERCONDUCTING ROTATING ELECTRICAL MACHINE - A superconducting rotating electrical machine configuring a motor or generator, includes a base member, a stator supported by the base member, a rotor rotatably provided relative to the stator and including a superconducting material, a rotary shaft supporting the rotor, a cooling portion cooling the stator, a low temperature container forming an accommodating chamber accommodating the stator, the rotor, and a coolant, the accommodating chamber being arranged within the base member, a vacuum heat insulation chamber arranged at an outer side of the accommodating chamber and thermally insulating the accommodating chamber with vacuum, and a bearing positioned a portion of the base member where the accommodating chamber is prevented from being provided and which is exposed to an ambient atmosphere including atmospheric air, the bearing rotatably supporting the rotary shaft. | 03-17-2011 |
20110277953 | SUPERCONDUCTING MOTOR - A superconducting motor includes: a rotor that is rotatably supported; a stator that is provided around the rotor, and that is provided with a plurality of coils that are respectively formed of superconducting wires and that are wound at an inner periphery of a stator core; and a refrigerator having a cooling portion for cooling the plurality of coils. The cooling portion of the refrigerator is in contact with the plurality of coils. | 11-17-2011 |
20120161556 | SUPERCONDUCTING ELECTRIC MOTOR - A superconducting electric motor includes: a rotor rotatably arranged; a stator arranged in a radial direction of the rotor to face the rotor; and a refrigerator having at least one narrow tube that flows low-temperature refrigerant inside. The stator has a plurality of superconducting coils wound at a radial end portion of a stator core and formed of a superconducting wire material. The at least one narrow tube has a core penetrating portion that is provided to penetrate through the stator core. Alternatively, the refrigerator has a plurality of narrow tubes, and at least part of each narrow tube is provided in the stator core. Connecting portions that are refrigerant supply/drain connecting portions at both ends of each of the plurality of narrow tubes are provided on both axial sides of the stator at opposite sides in a diametrical direction with respect to a rotation central axis of the rotor. | 06-28-2012 |
20120161557 | SUPERCONDUCTING ELECTRIC MOTOR - A superconducting electric motor includes: a rotor that is rotatably arranged; and a stator. The stator has a plurality of teeth provided on one radial end portion of a stator core and slots, each of which is provided between two of the plurality of teeth, adjacent in a circumferential direction of the stator. Coils are respectively wound around the teeth. The superconducting electric motor further includes a refrigerator that has a narrow tube that flows low-temperature refrigerant inside. At least part of the narrow tube is arranged between two of the coils, adjacent in the circumferential direction of the stator, in one of the slots. | 06-28-2012 |
20120165198 | SUPERCONDUCTING ELECTRIC MOTOR - A superconducting electric motor includes: a rotor that is rotatably arranged; and a stator that is arranged in a radial direction of the rotor so as to face the rotor. The stator has a plurality of superconducting coils that are wound at a radial end portion of a stator core and that are formed of a superconducting wire material. The superconducting electric motor includes a refrigerator that has at least one narrow tube that flows low-temperature refrigerant inside. The at least one narrow tube is in thermal contact with the stator core and at least one of the coils. | 06-28-2012 |
Patent application number | Description | Published |
20120181679 | SEMICONDUCTOR MODULE - A semiconductor module comprises: a metal block; a semiconductor device installed via a solder layer in a semiconductor device installation area on a surface of the metal block; and a molded portion formed by molding a resin on the metal block and the semiconductor device; wherein the surface of the metal block includes a plating area and a roughened area, and the semiconductor device installation area is provided in the plating area. | 07-19-2012 |
20130154081 | SEMICONDUCTOR MODULE - A semiconductor module which includes a semiconductor device; a wiring member that is connected to the semiconductor device; a cooling plate that includes a first surface on a side of the semiconductor device and a second surface on a side opposite to the first surface and has a fastening portion at an end thereof in a first direction; and a molded portion that is formed by molding a resin on the semiconductor device, the wiring member and the cooling plate, wherein the fastening portion is exposed out of the molded portion, and a terminal portion of the wiring member is exposed out of the molded portion such that the terminal portion of the wiring member extends in a second direction which is substantially perpendicular to the first direction. | 06-20-2013 |
20130154084 | SEMICONDUCTOR MODULE - A semiconductor module includes a semiconductor device; a metal plate portion that includes a first surface on a side of the semiconductor device and has a fastening portion at an end thereof; a molded portion that is formed by molding a resin on the semiconductor device and the metal plate portion, a cooling plate portion that is a separate member from the metal plate portion, is provided on a side opposite to the first surface on the side of the semiconductor device, and includes fins on a side opposite to the side of the metal plate portion; wherein the fastening portion of the metal plate portion is exposed out of the molded portion, and the cooling plate portion includes a fastening portion at a position that corresponds to a position of the fastening portion of the metal plate portion. | 06-20-2013 |
20130235636 | POWER MODULE - A power module according to the present invention includes a semiconductor device; a base part formed from an electrically conductive material on which the semiconductor device is mounted; a signal lead part formed from the same material as the base part, the signal lead part being electrically connected to the semiconductor device; and a thin plate lead part formed from the same material as the base part such that it is formed seamlessly from the base part and it is thinner than the base part, the thin plate lead part extending on the same side as the signal lead part with respect to the base part, wherein the thin plate lead part is electrically connected to a predetermined terminal of the semiconductor device via the base part such that it forms a potential detecting terminal for detecting a potential of the predetermined terminal of the semiconductor device. | 09-12-2013 |
20140035112 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device includes a first semiconductor element; a first thick plate portion that is electrically connected to an electrode on a lower surface side of the first semiconductor element, and is formed by a conductor; a second semiconductor element that is arranged such that a main surface of the second semiconductor element faces a main surface of the first semiconductor element; a second thick plate portion that is electrically connected to an electrode on a lower surface side of the second semiconductor element, and is formed by a conductor; a third thick plate portion that is electrically connected to an electrode on an upper surface side of the first semiconductor element, and is formed by a conductor; a fourth thick plate portion that is electrically connected to an electrode on an upper surface side of the second semiconductor element, and is formed by a conductor; a first thin plate portion that is provided on the second thick plate portion, is formed by a conductor, and is thinner than the second thick plate portion; and a second thin plate portion that is provided on the third thick plate portion, is formed by a conductor, and is thinner than the third thick plate portion. The first thin plate portion and the second thin plate portion are fixed together and electrically connected. | 02-06-2014 |
20140145193 | LEAD FRAME AND POWER MODULE - A problem to be solved is to provide a lead frame and a power module having high material yield. | 05-29-2014 |
Patent application number | Description | Published |
20090200840 | VEHICLE SEAT - The present invention can include a vehicle seat having a table, the table including a table main body, a shaft member, a first hinge structure that pivotably connects the table main body to one face of the vehicle seat and a second hinge structure that pivotably connects the shaft member to the one face of the vehicle seat. The table main body includes a holding member which is capable of slidably holding a front end portion of the shaft member and a lock member which is capable of engaging with the shaft member, and the lock member is provided at a position different from the holding member. Further, the table main body is movable between a containing position constituting a state of facing the one face of the vehicle seat and a using position constituting substantially a horizontal state by movement of the shaft member, and the lock member is engaged with a front end side portion of the shaft member at the using position and engaged with a back end side portion of the shaft member at the containing position. | 08-13-2009 |
20090218872 | VEHICULAR SEATS - One aspect of the present invention can include a vehicular seat including a reclining apparatus capable of adjusting an angle of a seat back relative to a seat cushion, a tilt down mechanism capable of moving the seat cushion in a lower direction toward a vehicular floor when the seat back is moved onto the seat cushion, a walk in mechanism capable of positioning the seat back relative to the seat cushion at a forward tilting angle, a base member provided on a side of the vehicular floor, a middle member provided between the base member and the seat back. Also, a lower portion of the middle member and the base member are connected to be able to adjust an angle therebetween by the reclining apparatus, an upper portion of the middle member and the seat back are connected by a connecting apparatus of the walk in mechanism, the walk in mechanism includes a stopper apparatus for positioning the seat back at a normal angle and a forward tilting angle which is forward from the normal angle relative to the middle member, and the tilt down mechanism moves the seat cushion in the lower direction toward the vehicular floor relative to the base member cooperatively with tilting the middle member relative to the base member. | 09-03-2009 |