||WO||WO/2014/125561 - ELECTRIC POWER METER WITH COMMUNICATION FUNCTION||21.08.2014||
||PCT/JP2013/053222||MITSUBISHI ELECTRIC CORPORATION||SASAKI Kazuya|
A measuring unit (311) comprises a measuring control CPU (3111) that has a measuring function to measure electrical power by calculation from voltage and current, and a storage unit (3112) that accumulates, for a prescribed period, data for the measured electrical power measured by the measuring control CPU (3111). The measuring unit (311) comprises a communication control CPU (3121) that has a communication function to transmit, to a data collecting device (5), the data for measured electrical power accumulated in the storage unit (3112). The power consumed by an electric power meter with the communication function is minimized by the communication control CPU (3121) autonomously transitioning to a sleep mode, which stops the communication function, by way of a sleep mode transition command sent from the measuring control CPU (3111).
||WO||WO/2014/125607 - STATOR OF ROTATING ELECTRIC MACHINE||21.08.2014||
||PCT/JP2013/053630||MITSUBISHI ELECTRIC CORPORATION||KATSURAGI Kota|
A concentrated winding stator having a split iron core structure of a rotating electric machine, wherein the length of a lug portion (3c) of an insulation sheet (3) protruding between adjacent windings (4) is set to a length that makes it possible to ensure a creepage distance required for insulation between the adjacent windings (4).
||WO||WO/2014/125584 - SEMICONDUCTOR DEVICE||21.08.2014||
||PCT/JP2013/053419||TOYOTA JIDOSHA KABUSHIKI KAISHA||KIMURA Keisuke|
The present specification discloses a semiconductor device in which an IGBT region and a diode region are formed on the same semiconductor substrate. The IGBT region is provided with the following: a first-conductivity-type body layer formed on the surface of the semiconductor substrate; a first-conductivity-type body contact layer that is formed on parts of the surface of the body layer and has a higher concentration of first-conductivity-type impurities than the body layer; a second-conductivity-type emitter layer formed on parts of the surface of the body layer; a second-conductivity-type drift layer formed on the bottom-surface side of the body layer; a first-conductivity-type collector layer formed on the bottom-surface side of the drift layer; and a gate electrode that is disposed inside a trench and covered by an insulating film. In this semiconductor device, the body contact layer is formed so as to be larger in areas that are far from the diode region than areas that are close to the diode region.
||WO||WO/2014/125590 - DETERMINING DEVICE, DETERMINING METHOD, AND PROGRAM||21.08.2014||
||PCT/JP2013/053486||MITSUBISHI ELECTRIC CORPORATION||ISHIHARA Masahiro|
A voltage-current verifying unit (17e) finds a phase difference between a phase voltage and a phase current from the phase of the phase voltage and the phase of the phase current found for each phase by way of a phase acquiring unit (17d) for each phase and determines conformity when all found phase differences are within a preset range. An inter-current verifying unit (17f) finds phase differences between the phase currents from the phases of phase currents found by way of the phase acquiring unit (17d) for each phase and determines conformity when all found phase differences are less than 180°. A notification unit notifies that a current transformer is misplaced on a power line when both the voltage-current verifying unit (17e) and the inter-current verifying unit (17f) do not determine conformity.
||WO||WO/2014/125640 - HYDRAULIC SHOVEL||21.08.2014||
||PCT/JP2013/053814||KOMATSU LTD.||NAKAMURA, Naoto|
Provided is a hydraulic shovel which facilitates a worker to walk up and down steps provided to the traveling body. A hydraulic shovel is provided with a traveling body and a rotating body. The rotating body is mounted on the traveling body and has a rotating frame which functions as a base. The rotating body has: a right section which is located on the right side of a centerline of the rotating body as viewed in the left-right direction of the rotating body, the centerline extending in the front-rear direction of the rotating body; and a left section which is located on the left side of the centerline as viewed in the left-right direction of the rotating body. The rotating body has a cab, a handrail, and a grip. The cab is provided to one of the right section and the left section. The handrail is provided to the other of the right section and the left section so as to be located at the front end of a side of the rotating body and extends upward toward the rear of the rotating body from the front end. The grip is provided below the handrail, on a side surface of the rotating frame. The traveling body has a track frame and steps. The steps are provided below the handrail, on the side surfaces of the track frame.
||WO||WO/2014/125646 - ROTATING ELECTRICAL MACHINE||21.08.2014||
||PCT/JP2013/053870||MITSUBISHI ELECTRIC CORPORATION||TSUIKI, Hironori|
The present invention achieves a miniaturized and highly efficient rotating electrical machine, with which an increase in the size of coil end groups is inhibited, and with which cooling performance of an armature winding is improved by achieving an increase in the heat dissipation area of the coil end groups. In a rotating electrical machine according to the present invention: slots are formed at a ratio of n (with the caveat that n is a natural number which is at least 2) per pole per phase; an armature winding is configured by respectively inserting, into corresponding slot pairs, n types of wound bodies which are each configured as a helical shape by winding a conductor wire an m number of times (with the caveat that m is a natural number which is at least 2) and using coil ends to couple ends of linear parts thereof, and which have different intervals between the linear parts thereof coupled using the coil ends; the n types of wound bodies are configured so as to be concentrically accommodated in an n number of adjacent slot pairs. The coil ends are provided with apex parts which are displaced in a radial direction by a prescribed amount, and which are located substantially in central portions thereof. The displacement amount by the apex parts in the radial direction is substantially a×d (with the caveat that, a is a natural number which is at least 1 and not more than (m-1), and d represents the thickness, in the radial direction, of the linear parts accommodated in the slots).
||WO||WO/2014/125517 - BODY WATER CONTENT MONITOR||21.08.2014||
||PCT/JP2013/000777||TERUMO KABUSHIKI KAISHA||SEKINE, Yuusuke|
Provided is a body water content monitor by which it is possible to properly ascertain the water content of the body of a subject. The body water content monitor, which measures the water content of the body of a subject, includes a display unit for displaying a measurement result, a backlight unit for illuminating the display unit, and a control unit for controlling the backlight unit to provide light for a predetermined amount of time at the timing at which measurement is completed and the measurement result is displayed on the display unit.
||WO||WO/2014/125519 - POWER STORAGE SYSTEM||21.08.2014||
||PCT/JP2013/000884||SANYO ELECTRIC CO., LTD.||OHTSUKI, Yousuke|
A power storage system (100) is equipped with a power storage cell module (10) and a heater (70) for heating the power storage cells. The power storage cell module (10) is linked to a power generation device for generating power by using renewable energy such as that from a system power source (200), a solar power generation system (300), and the like. The heater (70) is capable of receiving a supply of power from the power storage cell module (10). The lowest temperature at which the power storage cells are capable of discharging is set so as to be lower than the lowest temperature at which charging is possible.
||WO||WO/2014/125601 - BINDING TOOL||21.08.2014||
||PCT/JP2013/053560||PROTEC ENGINEERING, INC.||NOMURA Toshimitsu|
A binding tool with which multiple wire rods are crimped and which is designed for secure binding of the various wire rods even with long-term use. The tool is provided with a flat first binding member (10a) and a flat second binding member (20a). The first binding member (10a) and the second binding member (20a) each have a central section for covering multiple wire rods, a bendable first locking section (11, 21) extending from a first side of the central section, and a bendable second locking section (12, 22) extending from the second side of the central section on the side opposite to the first side. When the first binding member and the second binding member are crimped with multiple wire rods interposed therebetween, the first and second locking sections (11, 12) of the first binding member (10a) are bent so that the ends thereof each contact the outer surface of the second binding member (20a) and are bent so that each contacts the outer surface of the first binding member (10a).
||WO||WO/2014/125634 - CONNECTING PIPING AND STEAM TURBINE SYSTEM||21.08.2014||
||PCT/JP2013/053765||MITSUBISHI HEAVY INDUSTRIES COMPRESSOR CORPORATION||KODA Takuro|
The present invention is provided with: a cylindrical main body section that is provided with at least one annular rib on the outer circumferential surface; and a deforming section that is configured from a bellows that can be deformed in the axis line direction and diameter direction.