WO/2015/022730 ELECTRONIC APPARATUS||WO||19.02.2015|
||PCT/JP2013/071877||MITSUBISHI ELECTRIC CORPORATION||MUKADO, Takahiro|
An electronic apparatus is provided with recess portions (3a-1) in which a corner of a side surface (3a) of a housing (3) is recessed inwardly, and tab portions (3b-1) which are provided on corners of side surfaces (3b) that are adjacent to a side surface (3a) on which the recess portions (3a-1) of the housing (3) have been provided, which are bent toward the recess portion (3a-1) sides, and on each of which a screw-fixing hole (3b-2) is formed, and a cover (2) is disposed on the tab portions (3b-1) so as to be fixed by being screwed to the screw-fixing holes (3b-2). As a result, it is possible to prevent metallic powder that has been generated during screw-securing from intruding into the interior of the housing (3), and it is possible to improve accuracy of the positions at which the cover (2) is fixed to the housing (3).
WO/2015/023155 ONLINE AND OFFLINE LINKED GAME SYSTEM, AND COMPUTER PROGRAM||WO||19.02.2015|
||PCT/KR2014/007602||KIM, Tae Kwan||KIM, Tae Kwan|
Provided is an online and offline linked game system. An online and offline linked game system according to an embodiment of the present invention comprises: a determination unit for determining whether a mission has been completed on the basis of code data acquired with mission points; and a management unit for managing data for a set reward issued when the mission is determined to have been completed by the determination unit.
WO/2015/022213 SYSTEM AND METHOD FOR DETECTING PHYSICAL DEFORMATION OF A POLE||WO||19.02.2015|
||PCT/EP2014/066671||KONINKLIJKE PHILIPS N.V.||KNIBBE, Engel Johannes|
A pole (110), such as a street light or a traffic light, can, for example, break due to being hit by a car or bend due to being exposed to high winds. A system (100) for detecting physical deformation of a pole (110) comprises a signal processor (130) coupled to an antenna (120) arranged to receive a wireless signal (150). The signal processor (130) determines position data based on the wireless signal (150). A processor (140) analyzes position data to determine whether there is a variation between first position data relating to a first time period and second position data relating to a subsequent time period. When the pole (110) has been physically deformed between the first and the second time period, the first and second position data will vary and the processor determines that the pole has been physically deformed.
WO/2015/022024 EAR CLAMP||WO||19.02.2015|
||PCT/EP2013/067023||OETIKER SCHWEIZ AG||KENWRIGHT, Eric Thomas|
The invention relates to an open ear clamp comprising a clamping device in the form of a so-called Oetiker ear (12). In order to make the installation of the clamp on a pipe (20) easier, the clamp is pre-deformed beforehand, for example in the course of production, to such an extent that the clamp surrounds the pipe (20) for which the clamp is intended without play. Because of the elasticity produced in the clamp by this pre-deformation, the clamp still can be moved effortlessly to the installation location on the pipe (20) and yet is retained there in the position of the clamp and in the desired orientation.
WO/2015/023052 PUMPING CONTAINER FOR BLOCKING AIR||WO||19.02.2015|
||PCT/KR2014/005325||PARK, Kooksir||PARK, Kooksir|
A pumping container for blocking air comprises: a container for accommodating liquid contents; a pumping cap, coupled to an inlet of the container, for discharging the contents accommodated in the container to the outside according to a pumping operation; a suction line, coupled to the pumping cap, for sucking in the contents according to the operation of a pumping part; and an air blocking member for preventing the contents remaining in the container from making contact with air, by receiving and collecting air on the inside thereof in a volume equal to that of the contents discharged from the container by the pumping operation. Since the pumping container for blocking air, configured as described above, can always keep the contents accommodated in the container sealed from the outside so as not to be in contact with air, it is possible to prevent the problem of the shelf life of the contents rapidly shortening due to the decomposition or oxidation by contamination of the contents.
WO/2015/022926 NOVEL FUSED PYRIMIDINE COMPOUND OR SALT THEREOF||WO||19.02.2015|
||PCT/JP2014/071158||TAIHO PHARMACEUTICAL CO., LTD.||IGUCHI, Satoru|
The objective of the present invention is to provide a novel compound which has a BTK inhibitory action and a cytostatic effect. Additionally, the objective of the present invention is also to provide a medicine useful for prevention and/or treatment of diseases in which BTK is involved, in particular cancer, on the basis of the BTK inhibitory action. The present invention provides a compound represented by formula (I) [In the formula, R1 to R3, W, A, Y and Z have the same meanings as defined in the specification.] or a salt thereof.
WO/2015/020295 MEANDERING CORRECTION DEVICE FOR ELECTRODE ASSEMBLY||WO||12.02.2015|
||PCT/KR2014/002684||LG CHEM, LTD.||PARK, Ji Won|
The present invention relates to a meandering correction device for an electrode assembly which is manufactured by having a first unit cell and a second unit cell of different sizes are folded through a separator, the meandering correction device for correcting the position of the second unit cell so as to align the first unit cell and the second unit cell, comprises: a main body on which the electrode assembly is disposed; a moving jig which is disposed on one side of the main body and applies pressure to one side surface of the electrode assembly to move the electrode assembly towards the other side of the main body; and a correcting jig which is disposed on the other side of the main body and which supports the other side surface of the electrode assembly moved by the moving jig to correct the position of the second unit cell.
WO/2015/019661 POLISHING DEVICE AND POLISHING METHOD||WO||12.02.2015|
||PCT/JP2014/058508||SINTOKOGIO, LTD.||MAEDA Kazuyoshi|
The polishing device (1) is provided with: a processing vessel (10) into which the workpieces are inserted; a mobilization unit for mobilizing the workpieces inside the processing vessel; an abrasive-charging unit (30) for charging the abrasive in the direction of the workpieces; and a suction unit (40) for generating an air flow in which the abrasive moves in the direction that passes through the processing vessel (10) and for recovering the abrasive by suction. As a result of the air flow generated by the suction unit (40), the abrasive charged from the abrasive-charging unit (30) passes between the workpieces inserted in the processing vessel (10) while contacting the workpieces. The workpieces are thereby polished.
WO/2015/019513 PROCESS FOR MANUFACTURING NEODYMIUM-IRON-BORON-BASED RARE EARTH POWDER OR SPUTTERING TARGET, NEODYMIUM-IRON-BORON-BASED RARE EARTH POWDER OR SPUTTERING TARGET, AND NEODYMIUM-IRON-BORON-BASED THIN FILM FOR RARE EARTH MAGNET OR MANUFACTURING PROCESS THEREFOR||WO||12.02.2015|
||PCT/JP2013/082529||JX NIPPON MINING & METALS CORPORATION||SAWATARI Hironobu|
A process for manufacturing a neodymium-iron-boron-based rare earth powder, characterized by comprising: subjecting a raw material which comprises neodymium, iron and boron as main components to melting and casting in a vacuum, and thereby making an alloy ingot which has an oxygen concentration of 300ppm or less; and pulverizing the alloy ingot by a gas atomizing method using an inert gas, and thereby forming a powder which has an oxygen concentration of 500ppm or less. In making a neodymium-iron-boron-based rare earth powder or sputtering target, according to the present invention, the oxygen concentration of the target is reduced by reducing the quantity of moisture adhering to a raw material. Thus, the present invention enables stable formation of a film by a sputtering method or a pulsed laser deposition method, and creates an excellent effect of improving the magnetic characteristics of a rare earth magnet thin film and the productivity thereof.
WO/2015/019516 GAS-INSULATED SWITCHGEAR||WO||12.02.2015|
||PCT/JP2013/084609||MITSUBISHI ELECTRIC CORPORATION||ONISHI Kenji|
A gas-insulated switchgear includes a first tank in which a gas circuit breaker is stored and an insulation gas is sealed, the first tank comprising: an upper wall plate; a lower wall plate opposite the upper wall plate; a pair of side wall plates individually attached between the upper wall plate and the lower wall plate and formed into an arc shape in a front-to-back horizontal direction and in a vertical direction; a front end plate for covering the front end of the frame body formed from the upper wall plate, the lower wall plate, and the pair of side wall plates; and a rear end plate for covering the rear end of the frame body formed from the upper wall plate, the lower wall plate, and the pair of side wall plates.