WO/2016/166833 VEHICLE POWER SUPPLY DEVICE||WO||20.10.2016|
||PCT/JP2015/061572||MITSUBISHI ELECTRIC CORPORATION||TANI Hideaki|
The purpose of the present invention is to sense malfunctions of a charge/discharge current sensor of a cell, and to estimate and manage the charging rate of the cell when the charge/discharge current sensor is malfunctioning. This vehicle power supply device is provided with a charging rate estimation unit (102c) for estimating the charging rate of the cell, an operating current estimation unit (102d) for estimating the operating current of the electric load connected to the cell, and a charge/discharge current sensor malfunction-sensing unit (102b) which determines that there is a malfunction in a charge/discharge current sensor CS for detecting the charge/discharge current of the cell if the difference between the charge/discharge current and an operating current estimated value is at least a prescribed value; the vehicle power supply device being configured so that the electric load is operated at low output when a malfunction is detected in the charge/discharge current sensor CS, and the charging rate of the cell is estimated using the operating current estimated value.
WO/2016/166789 DATABASE MANAGEMENT SYSTEM, DATABASE SERVER, AND DATABASE MANAGEMENT METHOD||WO||20.10.2016|
||PCT/JP2015/061325||HITACHI, LTD.||TSUCHIDA, Takayuki|
According to the present invention, a database includes a plurality of data blocks. Each of the plurality of data blocks includes a plurality of data pages in which a plurality of column values recorded in one or more records corresponding to the data block are stored. Each of the plurality of data pages has two or more column values in one column corresponding to the data page stored therein. This database server selects a data block from the plurality of data blocks and specifies a data page to be scanned from the selected data block.
WO/2016/166790 VEHICLE PERIPHERY INFORMATION VERIFICATION DEVICE AND METHOD||WO||20.10.2016|
||PCT/JP2015/061336||NISSAN MOTOR CO., LTD.||KHIAT, Abdelaziz|
A vehicle periphery information verification device (1) is provided with: an obstacle detection means (20) for detecting an obstacle; a layout means (41) for laying out, on a map, a travel-allowed region in which a vehicle can travel and the detected obstacle; an action decision means (43) for deciding the action of the host vehicle using the information for the laid-out obstacle; a determination means (42) for determining whether or not the laid out obstacle is laid out in the travel-allowed region; and a prevention means (44) for preventing the action decision means (43) from deciding the action of the host vehicle when it is determined that the obstacle is not laid out in the able-to-travel region.
WO/2016/166796 ELECTRIC DRIVING DEVICE||WO||20.10.2016|
||PCT/JP2015/061359||MITSUBISHI ELECTRIC CORPORATION||TAKIZAWA, Yuji|
An electric driving device, in which a sensor magnet is fixed to a first end section of the rotation shaft of a motor. A sensor device has a rotation sensor for detecting the magnetic field of the sensor magnet. The rotation sensor faces the sensor magnet along the axial direction of the rotation shaft. A control unit mounted on the motor has an inverter circuit connected to the armature coil of the motor via a plurality of power supply wires. The inverter circuit is disposed, with respect to the axial direction of the rotation shaft, at a position further from the sensor magnet than the rotation sensor. A shield plate comprising a magnetic material is disposed between the rotation sensor and the inverter circuit.
WO/2016/166781 HEAT EXCHANGER AND VOC TREATMENT APPARATUS USING SAME||WO||20.10.2016|
||PCT/JP2015/002103||KANKEN TECHNO CO., LTD.||IMAMURA, Hiroshi|
Provided are a heat exchanger with which it is possible to achieve high heat exchange efficiency consistently over extended periods, despite the use of metal lacking heat storage capability as the material of the heat exchanger; and a VOC treatment apparatus using the same. Specifically, this heat exchanger 10 is provided with heat exchange units 12 each comprising a pair of base plates 14 formed to square shape and arranged facing each other with a space 12a therebetween, a plurality of tubes 16 for heat transfer, which are arranged generally parallel to one another within the space 12a, and a pair of tube plates 18 which support the tubes 16 at both axial ends and link together the side edges of the base plates 14 to form a frame body 12b. An even number of these heat exchange units 12 of identical shape and size are arranged so that the axial direction of the tubes 16 of adjacent heat exchange units 12 are mutually orthogonal, and the base plates 14 are superimposed on one another. A fluid channel is constituted in such a way that a heat-receiving fluid 20 and a heat-radiating fluid 22 which flow in a counterflow flow alternately to the inside and the outside of the tubes 16.
WO/2016/166812 DEVICE FOR ASSISTING MARINE-EQUIPMENT MAINTENANCE, PROGRAM, AND STORAGE MEDIUM||WO||20.10.2016|
||PCT/JP2015/061450||NIPPON YUSEN KABUSHIKI KAISHA||MISHIMA, Takashi|
In the present invention, a track record attribute data acquisition means (121) and a degree of degradation data acquisition means (122) acquire track record attribute data and degree of degradation data from a terminal device disposed on a ship. The track record attribute data indicates attributes relating to the state of ship navigation which was performed in the past. The degree of degradation data indicates, for each piece of equipment mounted on the ship, the level of degradation of a piece of equipment checked by a worker at the time of maintenance work. A relationship data generation means (123) generates, for each piece of equipment, relationship data which indicates the relationship between various types of attributes relating to the state of ship navigation and the degree of degradation of the equipment, on the basis of the track record attribute data and the degree of degradation data. An estimated attribute data acquisition means (125) acquires estimated attribute data which indicates an estimated value of an attribute relating to ship navigation. A timing data generation means (126) generates timing data which indicates the timing of equipment maintenance work, on the basis of the track record attribute data, the estimated attribute data and the relationship data.
WO/2016/166803 DEVICE FOR AFFIXING FILM TO DISPLAY SCREEN||WO||20.10.2016|
||PCT/JP2015/061399||TRINITY, INC.||HOSHIKAWA Tetsushi|
[Problem] To make it possible for a film to be correctly affixed to a display screen by a simple film holder and without the need for skill. [Solution] An apparatus for affixing a film to a display screen of a mobile device is provided with a film holder 10 for affixing a film body 20 to a display screen, the film holder 10 having a protruding engagement piece 11 as an engaging mate for mobile-device-side connector and the engagement piece 11 being inserted into and fixed in the connector, and, as positioning means 18 for the film body, the film holder having at least two positioning projections 15, 16 and the film body having the same number of positioning holes 21, 22 fitted with the positioning projections.
WO/2016/166813 ELECTRIC POWER SUPPLY DEVICE||WO||20.10.2016|
||PCT/JP2015/061461||SUMITOMO HEAVY INDUSTRIES MATERIAL HANDLING SYSTEMS CO., LTD.||SHIMOTSU Toshihito|
An electric power supply device (2) is provided with: a feeder (3) arranged along a track on which a conveying carriage (1) travels and divided into a plurality of sections (40); a plurality of inverters (5) for feeding electricity to the conveying carriage (1) via the feeder (3), one of the plurality of inverters (5) being installed for each section group (30) configured from a plurality of continuous sections (40) configuring part of the feeder (3); and a plurality of switching units (6) capable of connecting the plurality of inverters (5) within a section group (41) to a section (40) corresponding to the position where the conveying carriage (1) is located, one of the plurality of switching units (6) being installed for each section (40).
WO/2016/166870 SUBSTRATE PRODUCTION MACHINE AND SUBSTRATE PRODUCTION LINE||WO||20.10.2016|
||PCT/JP2015/061739||FUJI MACHINE MFG. CO., LTD.||MIZUNO Mitsuhiro|
The present invention is a substrate production machine (second component mounting machine 24) in which the following are provided on a machine base (31): work execution devices (241, 242, 243) for executing a prescribed production step work on a substrate; a control device (244) for controlling the operation of the work execution devices; and a monitor device (245) for displaying production step information on the basis of a command from the control device. Configured is an auxiliary monitor position at which an auxiliary monitor device (235) is disposed adjacent to the monitor device. The control device switches between an independent display mode for displaying the production step information on the monitor device, and a connected display mode for displaying the production step information on a connected display unit (5) that is integrally formed by the auxiliary monitor device disposed at the auxiliary monitor position and the monitor device. Due to this configuration, it is possible to display on the connected display unit an image formed by connecting the entirety of the production step information, which contains a large amount of information, as a single large screen, and it is possible to ensure good visibility.
WO/2016/166867 COMPUTER SYSTEM AND RESOURCE CONTROL METHOD||WO||20.10.2016|
||PCT/JP2015/061714||HITACHI, LTD.||IKEGAYA, Naoko|
In the present invention, a computer system has a host computer and a storage device. The storage device has: a logic volume; a logic partition that includes a logical resource for processing a command in which the logic volume is indicated; and logic partition control information that includes the logic partition responsible for the logic volume, and resource amount information allotted to the logic partition. The storage device: determines, on the basis of the content of a command received from the host computer, whether to change the resource amount allotted to the logic partition responsible for the logic volume indicated by said command; and changes the logic partition control information on the basis of the result of said determination.