||WO||WO/2014/147824 - MAGNETIC-CHARACTERISTICS DETECTION DEVICE||25.09.2014||
||PCT/JP2013/058353||GLORY LTD.||UEYAMA, Naoki|
This magnetic-characteristics detection device, which detects the magnetic characteristics of a magnetic substance contained in a slip of paper being conveyed along a conveyance path, comprises a magnet unit and a plurality of magnetism sensors. The magnet unit generates a magnetic field oriented in a direction that is perpendicular to the direction in which the slip of paper is conveyed along the conveyance path but parallel to the surface on which the slip of paper is conveyed. In the direction in which the slip of paper is conveyed, the magnetic field progressively decreases in strength, but after reaching a strength of zero, reverses direction and increases in strength again. The magnetism sensors detect the magnetic characteristics of the slip of paper being conveyed along the conveyance path and are arranged, within the magnetic field generated by the magnet unit, at positions that have different magnetic-field strengths. The magnetic characteristics of a magnetic substance contained in the slip of paper are detected on the basis of output signals produced when the magnetism sensors detected said magnetic substance.
||WO||WO/2014/147702 - ROTATING ELECTRIC MACHINE SYSTEM AND CONTROL METHOD FOR SAME||25.09.2014||
||PCT/JP2013/057628||HITACHI, LTD.||KUSUNO Nobuhiro|
The present invention provides a rotating electric machine system capable of preventing overcurrent at start-up without increasing components mounted on the rotor side of a rotating machine. The rotating electric machine system of the present invention comprises: a rotating machine; a power converter mounted on the rotor of the rotating machine and connected to an AC terminal of the rotor winding of the rotating machine; and a smoothing capacitor connected to a DC terminal of the power converter. The rotating electric machine system, in which the stator winding of the rotating machine is electrically connected to a power system through a switch device for opening and closing an electric path, further comprises: a rotation speed detector for monitoring the number of rotations of the rotating machine; and a control device for performing control so that the speed of the rotor of the rotating machine is increased or decreased to adjust the speed to a predetermined range of the number of rotations on the basis of the value detected by the rotation speed detector and the switch device is allowed to perform a closing operation to connect the stator winding of the rotating machine to the power system.
||WO||WO/2014/147764 - VEHICLE-SIDE CONNECTOR||25.09.2014||
||PCT/JP2013/057893||SUMITOMO WIRING SYSTEMS, LTD.||SHIMIZU Tooru|
This vehicle-side connector (10) is connected to a vehicle-mounted battery, and from the front of this vehicle-side connector a charge connector (50) connected to a charger can be fitted. This vehicle-side connector is characterized by a configuration provided with a lock fitting unit (22) which has a shape opening to the front and from the front of which the tip of a lock arm (54) provided on the charging connector (50) is fitted, and with an engaged portion (25) which is disposed inside of the lock fitting unit (22) and in which a metal lock plate (25B) where the tip of the lock arm (54) engages is attached to a pedestal portion (25A), wherein a mounting hole (25C) for attaching the lock plate (25B) from the rear is formed on the back wall (22B) of the lock fitting unit (22), and a cover for closing this mounting hole (25C) is provided.
||WO||WO/2014/147771 - SOLAR POWER GENERATION SYSTEM||25.09.2014||
||PCT/JP2013/057916||FUJI ELECTRIC CO., LTD.||YAMADA, Ryuji|
This solar power generation system (1) is provided with the following: a plurality of solar-cell groups (2a, 2b, …, 2n); a plurality of chopper units (3a, 3b, …, 3n) that are provided so as to form a one-to-one correspondence with the solar-cell groups; operating-point control means (6a, 6b, …, 6n); and an inverter (4). Each chopper unit acts to increase a DC voltage obtained from the corresponding solar-cell group. Each operating-point control means controls the output current from the corresponding chopper unit so as to optimize the operating point of that solar-cell group and obtain the maximum output therefrom. The DC voltage obtained from the plurality of chopper units is inputted to the inverter, which converts said DC voltage to AC power of a prescribed voltage and outputs same.
||WO||WO/2014/147729 - SHOULDER REST FOR MUSICAL INSTRUMENT||25.09.2014||
||PCT/JP2013/057732||OTA Keisuke||OTA Keisuke|
A shoulder rest (1) for a musical instrument is provided with: a belt (4) that is attached to the body of a violin (3); a first cushion member (5) freely movably attached to the belt (4) in the longitudinal direction of the belt (4); and a second cushion member (6) made to contact the first cushion member (5) on one surface and contact the shoulder of a player (2) of the violin (3) on another surface. Magnets are incorporated in inside parts within each of the first cushion member (5) and the second cushion member (6), and the first cushion member (5) and the second cushion member (6) are bonded to each other by the magnetic force of the magnets.
||WO||WO/2014/147741 - PROGRAM, INFORMATION PROCESSING DEVICE, AND UPDATE METHOD||25.09.2014||
||PCT/JP2013/057797||FUJITSU LIMITED||KINO, Takashi|
In order to update authentication information quickly while maintaining the consistency of the authentication information used by each of multiple devices, a storage unit (1a) stores authentication information which is associated with information indicating any one of multiple users and is used for authentication in an authentication device. A computation unit (1b) distributes authentication information to the authentication device in response to a request from the authentication device, and generates information indicating whether authentication information is being distributed with respect to the information indicating a user. The computation unit (1b) receives a request to update the authentication information associated with the information indicating a user. The computation unit (1b) references the information that has been generated, and when the authentication information with respect to the information indicating the relevant user has not been distributed, the computation unit updates the authentication information which is stored in the storage unit (1a) and the updating of which has been requested. When the authentication information with respect to the information indicating the relevant user is being distributed the computation unit (1b) confirms that the relevant authentication information is no longer being used by the authentication device, and then updates the updates the authentication information which is stored in the storage unit (1a) and the updating of which has been requested.
||WO||WO/2014/147806 - COMPONENT MOUNTER||25.09.2014||
||PCT/JP2013/058248||FUJI MACHINE MFG. CO.,LTD.||NISHIYAMA, Satoru|
This component mounter is provided with an imaging device (41) that simultaneously images the sides of three of a plurality of suction nozzles (13) held by a rotating head (11) on this component mounter, namely: a suction nozzle (13(B)) that moves up and down so as to pick up a component via suction and mount said component or so that said nozzle can be replaced; and the suction nozzles (13(A, C)) on both sides thereof. Said imaging device (41) has an image sensor (42) and an optics unit (43) that forms an image of the side of a target part of each of the three suction nozzles (13(A, B, C)) on a light-receiving surface of the image sensor (42) such that said images do not overlap. The images of the two suction nozzles (13(A, C)) on the ends of the row of three suction nozzles (13(A, B, C)) that are imaged as components are being picked up via suction and mounted are processed so as to determine whether or not components have been picked up by said suction nozzles (13(A, C)) and the orientation in which said components were picked up. The image of the middle suction nozzle (13), taken during nozzle replacement, is processed to determine the presence or absence of said suction nozzle (13).
||WO||WO/2014/147819 - VEHICLE, AND CONTACTLESS POWER SUPPLY SYSTEM||25.09.2014||
||PCT/JP2013/058296||TOYOTA JIDOSHA KABUSHIKI KAISHA||ICHIKAWA, Shinji|
A contactless power supply system (10) is capable of contactlessly supplying electric power from a power transmission unit (220) to a power receiving unit (110) of a vehicle (100). The contactless power supply system is provided with: a raising/lowering mechanism (105) which moves the power receiving unit, from a standby position, in a direction approaching the power transmission unit; and a vehicle ECU (300) for controlling the raising/lowering mechanism. The vehicle ECU is configured so as to be capable of performing: a first detection operation in which the position of the power transmission unit is detected while the power receiving unit is in a state of being positioned in the standby position; and a second detection operation in which the position of the power transmission unit is detected while the power receiving unit is in a state of being positioned in a power receiving position which is closer to the power transmission unit than the standby position. In cases when the power transmission unit is detected to be within a prescribed range in both the first and second detection operations, the vehicle ECU initiates power transmission from the power transmission unit.
||WO||WO/2014/147740 - ELECTRIC POWER CONVERSION DEVICE AND REFRIGERATING AIR-CONDITIONING DEVICE||25.09.2014||
||PCT/JP2013/057794||MITSUBISHI ELECTRIC CORPORATION||ARISAWA, Koichi|
An electric power conversion device that converts power between a power supply (1) and a load (9), and comprises: a pressure-boosting device (2) having a rectification unit (23) for pressure boosting, that prevents backflow of current from the load (9) side to the power supply (1) side, said pressure-boosting device (2) changing the voltage of power from the power supply (1) to a prescribed voltage; a commutation device (4) that performs a commutation operation whereby current that flows through the pressure-boosting device (2) is caused to flow to a different path; and a control device (100) that performs control of the variable voltage of the pressure-boosting device (4) and control of the commutation action of the commutation device (4). The commutation device (4) is configured such that, when the commutation device (4) is performing commutation, a current required for generating voltage to perform reverse recovery of the rectification unit (23) for pressure boosting flows to the commutation device (4).
||WO||WO/2014/147832 - STEAM TURBINE||25.09.2014||
||PCT/JP2013/058377||MITSUBISHI HEAVY INDUSTRIES COMPRESSOR CORPORATION||KATAGAKE Makoto|
A steam turbine (10) comprising a turbine body that has a rotatably supported blade, a steam flow path connected to the turbine body through which steam flows, a regulating valve that regulates, by linear motion, the opening and closing of the steam flow path, an open-close driving mechanism (15) that drives the regulating valve, an electronic governor (17) that controls at least the open-close driving mechanism, and a controller unit (35) that controls the operation of the open-close driving mechanism, wherein the open-close driving mechanism comprises an electric motor (26) that rotates by electrical power being supplied, a converting mechanism that converts the rotary motion of the electric motor to linear motion of the regulating valve, and a brake (28) that brakes the rotary motion of the electric motor by way of being operated, and at least one of the controller unit and the electronic governor performs control to operate the brake when at least one of the electric motor and the controller unit fails and maintain the position of the regulating valve.