||WO||WO/2013/122322 - DEVICE FOR SEPARATING GLASS FROM DISCARDED VEHICLES||22.08.2013||
||PCT/KR2012/011636||RESEARCH COOPERATION FOUNDATION, YEUNGNAM UNIVERSITY||YI, Hwa Cho|
According to the present invention, a device for separating glass from discarded vehicles includes: a support unit fixed to the center pillar or to a seat of a discarded vehicle; a pressurizing unit, one side of which is connected to the support unit and the other side of which engages with the inner side of the front windshield or the inner side of the rear windshield in order to apply pressure to the front windshield or rear windshield; and a driving unit connected to the pressurizing unit so as to transmit driving force to the pressurizing unit. The pressurizing unit preferably includes a cylinder, one side of which is disposed in the support unit, and the cylinder is preferably driven when pneumatic pressure or hydraulic pressure is transmitted from the driving unit.
||WO||WO/2013/120741 - METHOD FOR REDUCING INTERFERENCE AT A TERMINAL OF A WIRELESS CELLULAR NETWORK, WIRELESS CELLULAR NETWORK, NODE AND CENTRAL NODE OF A WIRELESS NETWORK||22.08.2013||
||PCT/EP2013/052292||NTT DOCOMO, INC.||BAZZI, Samer|
A method for reducing interference at a terminal (UEK) of a wireless cellular network is described. The terminal (UEK) experiences interference from a plurality of interfering nodes in the wireless cellular network. The method includes selecting the precoders of the interfering nodes such that the sum of distances between the interference projector matrices for the terminal (UEK) is minimized.
||WO||WO/2013/122227 - METHOD FOR MANUFACTURING INFRARED-REFLECTIVE SUBSTRATE||22.08.2013||
||PCT/JP2013/053747||NITTO DENKO CORPORATION||FUJISAWA, Junichi|
Provided is a method for manufacturing an infrared-reflective substrate in which a reflective layer and a protective layer are layered, the method being provided with: a step for layering the reflective layer and the protective layer, which contains a polymer cross-linked by irradiation with electron rays; and a step for irradiating the protective layer with electron rays.
||WO||WO/2013/122069 - HIGH-PURITY TITANIUM INGOTS, MANUFACTURING METHOD THEREFOR, AND TITANIUM SPUTTERING TARGET||22.08.2013||
||PCT/JP2013/053307||JX NIPPON MINING & METALS CORPORATION||YAGI Kazuto|
High-purity titanium ingots with a purity of at least 99.99% by mass, excluding added elements and gas components. Said titanium ingots are characterized by containing an added component consisting of a total of 0.1 to 100 ppm by mass of one or more non-metallic elements selected from among sulfur, phosphorus, and boron. Said titanium ingots are further characterized in that the amounts of non-metallic elements vary by no more than ±200% between the top, middle, and bottom of a given ingot. A method for manufacturing titanium ingots containing 0.1 to 100 ppm by mass of non-metallic elements, said method being characterized in that when manufacturing high-purity titanium ingots with a purity of at least 99.99% by mass, excluding added elements and gas components, the non-metallic element sulfur, phosphorus, or boron is added to molten titanium in the form of an intermetallic compound or a master alloy. The present invention addresses the problem of providing high-purity titanium having a uniform structure, improved strength, and reduced intra- and inter-ingot variation in non-metallic-element content by adding one or more non-metallic elements selected from among sulfur, phosphorus, and boron.
||WO||WO/2013/120257 - METHOD FOR SYNTHESIZING LAEVO-P-HYDROXYPHENYLGLYCINE COMPOUND||22.08.2013||
||PCT/CN2012/071159||HENAN NEWLAND PHARMACEUTICAL CO., LTD||XIE, Jianzhong|
Provided is a method for synthesizing a laevo-p-hydroxyphenylglycine compound, comprising: (1) subjecting an amine compound with a glyoxylic acid ester compound to a nucleophilic addition reaction; subjecting the product obtained in step (1) with a phenolic compound to a reaction in a manner similar to a Friedel-Crafts reaction in the presence of a chiral acid or a non-chiral acid, so as to generate the laevo-p-hydroxyphenylglycine compound. The method has advantages such as the final product having a high ee value, little pollution, and no need for treatments for resolution and racemisation.
||WO||WO/2013/118378 - SEMICONDUCTOR DEVICE WITH BUILT-IN NON-VOLATILE MEMORY||15.08.2013||
||PCT/JP2012/081569||TAIYO YUDEN CO., LTD.||ISHIGURO Takashi|
Provided is a semiconductor device which is equipped with: an address decoder which decodes an address input from an address line in order to output a word selection signal to a word line; a memory cell array which has a plurality of non-volatile memory cells which are each disposed at positions where the respective word and data lines intersect, wherein the non-volatile memory cells use a portion of a phase-change film as a storage element, and one end of the phase-change film is connected to an electrode which is connected to a power supply voltage; and a data line voltage control unit which lowers the potential of the data line which is connected to the other end of the phase-change film in order to generate a phase-change in a portion of the phase-change film so as to write data to the non-volatile memory cell.
||WO||WO/2013/118210 - METHOD FOR MANUFACTURING ORGANIC EL ELEMENT, AND ORGANIC EL ELEMENT||15.08.2013||
||PCT/JP2012/007153||PANASONIC CORPORATION||AONUMA, Masaki|
This method for manufacturing an organic EL element comprises: a first step wherein a lower electrode is formed on a substrate; a second step wherein an organic functional layer is formed on the lower electrode; and a third step wherein an upper electrode is formed on the organic functional layer. The third step comprises: a first film formation step wherein a thin film, which is formed of the material for the upper electrode, is formed on the organic functional layer by a magnetron sputtering method; and a second film formation step wherein, after the first film formation step, a thin film, which is formed of the material for the upper electrode, is formed by a film forming method that is different from the magnetron sputtering method on the thin film that is formed in the first film formation step.
||WO||WO/2013/118353 - METHOD FOR PRODUCING METAL OXIDE FILM AND METAL OXIDE FILM||15.08.2013||
||PCT/JP2012/077416||TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION||SHIRAHATA Takahiro|
A purpose of this invention is to provide a method for producing a metal oxide film capable of producing a metal oxide film with favorable membrane properties (low resistance) at a low cost. This invention is provided with a step (A) for forming a metal oxide film (10) on a substrate (1) by atomizing a solution (5) comprising zinc and spraying the atomized solution (5) on the substrate (1) in a non-vacuum, and a step (B) for lowering the resistance of the metal oxide film (10) by irradiating the metal oxide film (10) with ultraviolet light (13). Furthermore, step (B) has a step (B-1) for determining the wavelength of the ultraviolet light (13) for irradiating, according to the thickness of the metal oxide film (10), and a step (B-2) for irradiating the metal oxide film (10) with the ultraviolet light (13) having the wavelength determined in the previous step (B-1).
||WO||WO/2013/118532 - FILTER DEVICE||15.08.2013||
||PCT/JP2013/050370||MURATA MANUFACTURING CO., LTD.||TSUDA, Motoji|
A filter device of the present invention is, for example, a duplexer (1). The duplexer (1) is provided with the following: a piezoelectric substrate (2); an IDT (3) formed on the main surface of the piezoelectric substrate so as to configure an elastic surface wave resonator; a wired electrode (5) electrically connected to the IDT (3); and acoustic members (different acoustic parts) (6) formed on the main surface of the piezoelectric substrate (2) near the IDT (3) and having acoustic impedance that is different from that of the piezoelectric substrate (2). The wired electrode (5) disposed near the IDT (3) is formed in an acoustic member (6).
||WO||WO/2013/118439 - WIRELESS COMMUNICATION DEVICE||15.08.2013||
||PCT/JP2013/000334||PANASONIC CORPORATION||MORITA, Tadashi|
A WiGig wireless device (20) partially masks the preamble of a transmit signal frame and generates a repeating pattern of the same pulses which can be used in correlation detection on the sensor (10) side. That is, a Golay code sequence is intermittently masked, and a repeating pattern of Golay codes is output. The sensor (10) uses pulse compression to perform correlation detection so that even in an environment where reflected waves would be generated, the sensor (10) is able to separate direct waves and reflected waves and detect an antenna radiation pattern.