||WO||WO/2015/011946 - TANK CAP||29.01.2015||
||PCT/JP2014/057479||YANMAR CO., LTD.||WATANABE Nobuhiro|
This tank cap (100) is provided with an outer body (1), and a leaf spring (2) attached to the outer body (1), and when the outer body (1) is turned, a plate part (2P) extending from the leaf spring (2) moves along a slope part (Ts) on the tank (fuel tank (T)) side. The rigidity of the leaf spring (2) when an operator grasps the outer body (1) and begins to turn it in the "closed" direction is different from the rigidity when grasping the outer body (1) and beginning to turn it in the "open" direction.
||WO||WO/2015/011961 - COMPOSITE MATERIAL COMPRISING METAL AND CARBON FIBERS, AND METHOD FOR PRODUCING SAME||29.01.2015||
||PCT/JP2014/060698||SHOWA DENKO K.K.||MIZO Tatsuhiro|
A composite material (1A) comprising a metal and carbon fibers, in which multiple metal layers (2) and multiple carbon fiber layers (3) are laminated alternately in such a manner that metal layers (2a, 2b) are respectively arranged on both of the outermost sides of the resultant laminate as observed in the direction of the lamination, and the layers are integrated together by diffusion bonding. The thickness of each of the outermost-side metal layers (2a, 2b) is larger than the thickness of each of the inside metal layers (2c) that are arranged between the outermost-side metal layers (2a, 2b).
||WO||WO/2015/011781 - CONTROL DEVICE FOR SOLAR POWER GENERATION INVERTER||29.01.2015||
||PCT/JP2013/069886||TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION||MATSUOKA, Yuji|
A control device (2) for an inverter (1) detects the insufficiency of the output voltage of the inverter (1) on the basis of the system voltage (Vr) of an AC power system (7) and a DC voltage (Vdc) applied to the inverter (1), detects the distortion of output current (Iiv) on the basis of the harmonics contained in the output current (Iiv), and performs a maximum power point tracking control on the inverter (1). When the insufficiency of the output voltage (Viv) is detected and the distortion of the output current (Iiv) is detected, the control device (2) controls the DC voltage (Vdc) applied to the inverter (1) to the voltage corresponding to a power point lower than the maximum power point (Pmpp) used in the maximum power point tracking control.
||WO||WO/2015/011807 - DISPLAY SYSTEM, METHOD, AND PROGRAM||29.01.2015||
||PCT/JP2013/070099||FUJITSU LIMITED||HAYASHI, Taketoshi|
Degradation of specific screen data on a display screen is prevented even when abnormality develops during the generation of some of screen data. An infotainment integrated control CPU (28) generates cockpit screen data for displaying information including car navigation information and stores the data in a cockpit frame memory (32). A cluster control CPU (46) generates cluster screen data for displaying information indicating vehicle speed, stores the data in a cluster frame memory (50), and stores overlay control data in a cluster region setting memory (52), the overlay control data setting pixels in a region of the cluster screen data in which an image is present (a region of pixels of which pixel values are not zero) as pixels having output, and other pixels as having no output. An overlay process circuit (56) generates output screen data by performing a process of outputting the cluster screen data for the pixels having output, or a process of outputting the cockpit screen data for the pixels having no output. A display process unit (58) causes a display device (12) to display an image in accordance with the output screen data.
||WO||WO/2015/011836 - AXIAL GAP MOTOR AND METHOD FOR MANUFACTURING WINDING THEREFOR||29.01.2015||
||PCT/JP2013/070387||HITACHI, LTD.||TANAKA Yuichiro|
Provided are an axial gap motor and a method for manufacturing a winding therefor such that cost reduction and increased output can be achieved without a jumper wire protruding from a continuously wound coil formed by winding an insulated conductor wire. The axial gap motor comprises a stator constituted by disposing a plurality of coils in an annular configuration, and a rotor rotatably attached facing one or both of the principal surfaces of the stator, having a plurality of permanent magnets corresponding to the plurality of coils of the stator. Each of the plurality of coils constituting the stator is formed by continuously winding one or more insulated conductor wires around the two or more segment cores as coil wires and then across said two or more segment cores. The stack thickness (L1') and the radial length (L2) of each coil satisfy the relation: L2 < L1'. The length of the jumper wire of the insulated conductor wires continuously wound across the two or more segment cores matches the radial length (L2) of the coil.
||WO||WO/2015/011799 - IMAGE RECOGNITION APPARATUS AND STORAGE MEDIUM||29.01.2015||
||PCT/JP2013/070032||NEC CORPORATION||TAKAHASHI, Katsuhiko|
A field-programmable gate array (FPGA) coarse Hough transform unit (102) performs a first Hough transform on an image that has been input to an image input unit (101), in a coarse resolution, on an FPGA, and outputs candidate location information obtained by the first Hough transform and the image to an external memory (103). A fine Hough transform unit (104) reads the candidate location information and the image stored in the external memory (103) on a general purpose processor, performs a second Hough transform on the image using the candidate location information in a fine resolution, and outputs fine-resolution location information of a two-dimensional pattern to be recognized within the image to the external memory (103).
||WO||WO/2015/011825 - STORAGE SYSTEM AND CONTROL METHOD FOR STORAGE SYSTEM||29.01.2015||
||PCT/JP2013/070298||HITACHI, LTD.||SUGIMOTO, Sadahiro|
The purpose of the present invention is to provide a storage system in which target data is relatively quickly restored to improve reliability. A plurality of storage devices (210) constitute a parity group (230) for restoring data. FM boards (150) serving as first memory devices are high capacity memory devices having a parity calculation function (1512). When a data restoration process is to be performed on target data (D2), one of the FM boards (150) obtains other data (D0) and (D1) and parity (P0) which are required to restore the target data (D2), and performs predetermined parity calculation using the parity calculation function, thereby restoring the target data (D2). The restored data (D2) is written to each individual FM board (150) so that redundancy is imparted to the data (D2), thereby practically completing the data restoration process.
||WO||WO/2015/011787 - HYBRID WORK MACHINE, AND AUTO-STOP CONTROL METHOD FOR ENGINE OF HYBRID WORK MACHINE||29.01.2015||
||PCT/JP2013/069947||KOMATSU LTD.||KITAMURA Kenichi|
A hybrid hydraulic shovel (1) is provided with: an engine (4); a generator motor (5); a capacitor (12); a cooling device (80) for cooling the capacitor (12); and a controller (41). The cooling device (80) is provided with: a circulation mechanism (81) for causing a coolant to circulate; and a cooler (85) which uses output of the engine (4) to cool the coolant. In cases when it is determined that the capacitor (12) is in an overheated state, the controller (41) prohibits an auto-stop operation of the engine (4).
||WO||WO/2015/011800 - CUTTING EDGE REPLACEMENT ASSISTANCE SYSTEM||29.01.2015||
||PCT/JP2013/070046||FUJI MACHINE MFG. CO., LTD.||KAMIYA Atsushi|
The present invention addresses the problem of providing a cutting edge replacement assistance system (10) whereby it is easy to identify which cutting edge is to be replaced. This cutting edge replacement assistance system (10) is used for a machine tool for machining a workpiece (W) while replacing a cutting edge each time a predetermined service life of the cutting edge is reached. The cutting edge replacement assistance system (10) is equipped with: a control device (2) which counts the number of times of use of the cutting edge and compares the number of times of use with the service life; and a display device (8) which displays a replacement assistance guidance information (800) inquiring whether or not the cutting edge needs to be replaced.
||WO||WO/2015/011806 - ASSEMBLY MACHINE, HOLDING MEMBER, AND INSPECTION JIG||29.01.2015||
||PCT/JP2013/070097||FUJI MACHINE MFG. CO., LTD.||TESHIMA Yasuhiro|
The purpose of the present invention is to provide: an assembly machine in which the subject component is reliably held, thereby making it possible to reduce the size of the product and the length of the cycle time; a holding member used in the assembly machine; and an inspection jig.
The assembly machine is provided with: a holding member in which an ER gel, in which the adhesive force can be varied in correspondence with the applied voltage, is used on at least a part of the area that comes into contact with a component; a transfer device for supporting the holding member so that the component held by the holding member can be transferred to an assembly position in a positioned assembled body; and a control device for controlling the lifting and lowering of the holding member and the movement of the transfer device, and controlling the voltage applied to the ER gel when the holding member holds the component.