Fecha de publicación
Nº de solicitud
|1.||WO||WO/2013/069166 - COSMETIC COMPOSITION FOR KERATIN FIBERS||16.05.2013||
The present invention relates to a cosmetic composition for keratin fibers, in a mousse form, comprising: (a) at least one fatty material; (b) at least one glucoside type surfactant; (c) at least one non-volatile alkaline agent; and (d) at least one oxidizing agent, and (e) at least one foam stabilizer wherein the amount of the (a) fatty material (s) is 20% by weight or more, preferably 30% by weight or more, and more preferably 40% by weight or more, relative to the total weight of the composition. The present invention is useful, because the cosmetic composition according to the present invention can have good foamability as well as good bleaching or coloring ability, without offensive odor from ammonia.
|2.||WO||WO/2013/069083 - ALL-SOLID-STATE BATTERY||16.05.2013||
|PCT/JP2011/075614||TOYOTA JIDOSHA KABUSHIKI KAISHA||KOGA, Tatsuya|
The present invention addresses the problem of providing an all-solid-state battery which has low battery resistance and high capacity. The present invention solves the above-described problem by providing an all-solid-state battery, which comprises a positive electrode active material layer, a negative electrode active material layer, and a solid electrolyte layer that is formed between the positive electrode active material layer and the negative electrode active material layer, and which is characterized in that: the positive electrode active material layer contains a positive electrode active material and a solid electrolyte material; the ratio of the positive electrode active material relative to the total of the positive electrode active material and the solid electrolyte material is larger than 50% by volume; and the ratio of the average particle diameter of the positive electrode active material relative to that of the solid electrolyte material is not less than 0.9.
|3.||WO||WO/2013/069140 - HEAD-UP DISPLAY, DISPLAY METHOD, AND ROAD INFORMATION DISPLAY DEVICE||16.05.2013||
|PCT/JP2011/075990||PIONEER CORPORATION||NASHIMOTO, Daisuke|
A head-up display, comprising: a traffic information acquisition means that obtains information about congestion and/or traffic restrictions present further ahead on a plurality of junction roads branching from a junction present in the direction of progression on the road that a moving body is traveling; and a display control means that displays on a display means a guide image including information indicating the presence of each of the plurality of junction roads indicated by road signs actually present on the road on which the moving body is traveling, and congestion information and/or traffic restriction information corresponding to each of the plurality of junction roads indicated by the road signs and obtained by the traffic information acquisition means. As a result, congestion information and traffic restriction information can be readily grasped by a user, and a display area in the head-up display can be effectively utilized.
|4.||WO||WO/2013/069120 - GEAR SHIFT INDICATOR||16.05.2013||
|PCT/JP2011/075867||TOYOTA JIDOSHA KABUSHIKI KAISHA||SATO Keita|
In a hybrid vehicle in which is installed an electric continuously variable transmission having a sequential shift mode, a lower limit engine rotational velocity, which is set higher as the gear range goes lower, is set for each gear range that is set in the sequential shift mode. When the engine rotational velocity decreases to the lower limit rotational velocity while running in the sequential shift mode, a shift-up lamp of the gear shift indicator lights up, prompting the driver to upshift manually. When the driver shifts up in response thereto, the lower limit engine rotational velocity is set to a low value, enabling the engine rotational velocity to be set lower, thereby improving the fuel consumption rate.
|5.||WO||WO/2013/069051 - COMPUTER SYSTEM, AND METHOD FOR MANAGING RESOURCE POOL INFORMATION||16.05.2013||
|PCT/JP2011/006238||HITACHI, LTD.||AMANO, Takashi|
A computer system is provided that is capable of reducing an administrator's operational errors by connecting a new server to a SAN and automating a SAN boot setting, and capable of lightening the administrator's task of checking for a wrong connection by detecting a wrong connection made when a new server is connected to an SNW connection device. Once a new server connected to a PnP SAN starts with a boot program obtained from a boot management server, the new server transmits configuration information on the new server to a resource management server. In response to a request from the resource management server, a storage device refers to PnP SAN information to transmit SAN information on a storage network connection device to which the new server is connected. The resource management server determines to add the new server to a resource group on the basis of the SAN information and requirement information. The resource management server sets the storage device and the new server for SAN-booting the new server. (See figure 1)
|6.||WO||WO/2013/069053 - POWER SUPPLY APPARATUS||16.05.2013||
|PCT/JP2011/006244||FUJITSU TELECOM NETWORKS LIMITED||YAMASHITA, Shigeharu|
A PFC (power factor correction) circuit of the present invention improves power factor of rectified power. A first DC-DC converter receives output of the PFC circuit, and generates a voltage to be supplied to a load. A second DC-DC converter and a third DC converter receive output of the PFC circuit, and generate a control voltage. The second DC-DC converter and the third DC-DC converter are cascade-connected. An input terminal of the third DC-DC converter is connected to both the output terminal of the second DC-DC converter and the output terminal of the first DC-DC converter.
|7.||WO||WO/2013/069062 - GUARD FOR FISHING HOOK AND FISHING HOOK WITH GUARD TO WHICH SAID GUARD IS ATTACHED||16.05.2013||
|PCT/JP2011/006297||GAMAKATSU CO., LTD.||SANO, Kazunori|
Provided is a guard for a fishing hook such that not only can breaking of a guard member be prevented, but also adjustment of the orientation of this guard member is easy and replacement of the guard member is also easy. A guard (10) for a fishing hook is constituted of a flexible guard member (14) and a base (16) formed of an elastic material and having a guard member holding part (20) with a shaft through hole (18), through which a shaft part (12b) of a fishing hook (12) passes and which is smaller in diameter than the shaft part (12b), and holding one end part (14a) of the guard member (14) such that the other end part (14b) of the guard member (14) is oriented toward a tip part (12a) of the fishing hook (12).
|8.||WO||WO/2013/069064 - LITHIUM ION SECONDARY BATTERY AND METHOD FOR MANUFACTURING SAME||16.05.2013||
|PCT/JP2011/006299||TOYOTA JIDOSHA KABUSHIKI KAISHA||ONIZUKA, Hiroshi|
The present invention provides: a lithium ion secondary battery which is able to have improved charge and discharge cycle characteristics or improved durability such as high-temperature storage endurance characteristics, while suppressing deterioration in the initial performance; and a method for manufacturing the lithium ion secondary battery. This lithium ion secondary battery comprises an electrode that is a positive electrode or negative electrode which is provided with an electrode layer containing an active material. At least a part of the surface of the active material is covered with a lithium halide (X) having low ion binding properties, said lithium halide (X) having a ratio of the peak intensity (P1) near 60 eV to the peak intensity (P2) near 70 eV in an Li-XAFS measurement, namely a peak intensity ratio P1/P2 of less than 2.0.
|9.||WO||WO/2013/069070 - SEMICONDUCTOR DEVICE AND ACTIVE MATRIX DRIVE CIRCUIT USING SAME||16.05.2013||
|PCT/JP2011/006324||PIONEER CORPORATION||AKIYAMA, Shutetsu|
In the present invention, the following are provided: a first conducting semiconductor layer (12) formed on top of a semiconductor substrate; a drain region (13) formed on the semiconductor layer (12) and having a second conducting drain electrode layer (21); a source region (14) formed on the semiconductor layer (12) and having a second conducting source offset layer (32) and a source electrode layer (31); a gate oxide film (15) formed between the drain region (13) and the source region (14) on an active region on the surface of the semiconductor layer (12); a LOCOS oxide film (16) formed between the drain region (13) and the gate oxide film (15) on the surface of the semiconductor layer (12); and a gate electrode (18) formed on top of the gate oxide film (15) so as to straddle the LOCOS oxide film (16). The source offset layer (32) is formed adjacent to the gate oxide film (15), and the concentration of impurities in the source offset layer (32) is higher than that of the semiconductor layer (12) and lower than that of the source electrode layer (31). The source electrode layer (31) is formed within the source offset layer (32) at a distance from the gate oxide film (15).
|10.||WO||WO/2013/069077 - METHOD FOR PRODUCING STYRENE-BASED RESIN COMPOSITION COMPRISING HIGHLY BRANCHED ULTRA-HIGH-MOLECULAR-WEIGHT POLYMER, AND COMPOSITION||16.05.2013||
|PCT/JP2011/075578||NIPPON STEEL & SUMIKIN CHEMICAL CO., LTD.||AKIBA Keita|
Provided is a styrene-based resin composition with which gelling is controlled and which is formed from a highly branched ultra-high-molecular-weight copolymer and a linear polymer; also provided is a method for producing the same. By means of the method for producing a styrene-based resin composition comprising a highly branched super-high-molecular-weight copolymer and a linear polymer, a styrene-based resin composition is obtained that comprises the following: a highly branched ultra-high-molecular-weight copolymer which is produced by adding 50 to 5,000 ppm by weight standard of a solvent-soluble polyfunctional vinyl copolymer, having an average of two or more vinyl groups per 1 molecule and having a branch structure, to a monovinyl compound whose essential ingredient is styrene to promote polymerization and thereby polymerize the solvent-soluble multifunctional vinyl copolymer and the monovinyl compound; and a linear polymer that is produced by polymerization of the monovinyl compound.