Koori
Hiroshi Koori, Ashigarakami-Gun JP
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20110054181 | NEAR INFRARED FLUORESCENT IMAGING AGENT - A compound represented by general formula (I) below, or a pharmacologically acceptable salt thereof: | 03-03-2011 |
20110054188 | NEAR INFRARED FLUORESCENT IMAGING AGENT - A compound represented by general formula (I) below, or a pharmacologically acceptable salt thereof: | 03-03-2011 |
Junichi Koori, Ashigarakami-Gun JP
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20110220270 | METHOD FOR PRODUCING ENDOSCOPE FLEXIBLE TUBE - A method for producing an endoscope flexible tube comprising the steps of: | 09-15-2011 |
Katsushige Koori, Osaka-Shi, Osaka JP
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20150326267 | WIRELESS COMMUNICATION TERMINAL DEVICE - A wireless communication terminal device according to the present invention comprises a main body which has a built-in electronic component, a casing which houses the main body, a cover body which is detachably attached to the casing, an antenna for wireless communication which is mounted on the cover body, a pair of electrodes which are disposed on the inner face of the cover body and connected to the antenna, a pair of terminals which are disposed on the main body and make contact with the pair of electrodes, and at least two projection pieces which are formed on the inner face of the cover body near the pair of electrodes as well as on both sides with the pair of electrodes interposed therebetween and project higher than the surfaces of the pair of electrodes. | 11-12-2015 |
Motoki Koori, Anjo JP
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20130298384 | MANUFACTURING METHOD FOR ELECTRIC MOTOR ROTOR - A manufacturing method for an electric motor rotor includes: a stacking process in which a plurality of iron core pieces are stacked to form a laminated iron core; a magnet insertion process in which a permanent magnet is inserted into a magnet insertion hole provided in the laminated iron core; a resin filling process in which the laminated iron core is heated to fill the magnet insertion hole with a molten resin for magnet fixation; and a rotary shaft assembly process in which a rotary shaft is warm-fitted into a rotary shaft insertion hole of the laminated iron core utilizing residual heat from the heating of the laminated iron core | 11-14-2013 |
20130309341 | RESIN FILLING DEVICE - A resin filling device for a laminated iron core, the resin filling device being used when a magnet insertion hole provided in the laminated iron core of a rotor for an electric motor is filled with a molten resin for fixing a magnet. The resin filing device configured with a resin feeding mold, an opposing mold, and a pressing mechanism that applies a compression force with the laminated iron core sandwiched between the resin feeding mold and the opposing mold. The resin feeding mold includes one or more discharge outlets arranged so as to face the opening of the magnet insertion hole, and configured to include a diameter reducing part in which an inner diameter is reduced gradually along a discharge direction of the molten resin. A diameter reducing part is arranged inside of the laminated iron core. | 11-21-2013 |
Motoki Koori, Anjyo JP
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20110232076 | LAMINATED CORE PUNCHING APPARATUS - A laminated core punching apparatus, configured such that a stator-punching press machine that has a molding die performing a partial punching gradually approaches the shape of the stator core piece. There is a punching die to punching out the stator core piece from a strip-form steel plate, and two stator lamination stations. A rotor-punching press machine and a stator-punching press machine are constructed to operate synchronously. An intermediate loop portion capable of causing a strip-form steel plate to hang down in a loop is provided in order to adjust a length of the strip-form steel plate between the two press machines, and a loop guide portion that guides a loop locus of the strip-form steel plate from above so that the strip-form steel plate does not invert is disposed above the intermediate loop portion to be capable of ascending and descending. | 09-29-2011 |
Yohei Koori, Chiba JP
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20120208422 | SPUN-BONDED NONWOVEN FABRIC AND FIBER PRODUCT - The present invention provides a spunbond nonwoven fabric made of a specific crystalline resin composition having a melt flow rate of 25 to 80 g/10 min and a melting endotherm ΔH of 65 to 100 J/g. More particularly, the invention provides a polypropylene spunbond nonwoven fabric having a very small fiber diameter and providing an excellent feel to the touch, and a polypropylene spunbond nonwoven fabric exhibiting high softness. | 08-16-2012 |
20120302982 | NON-WOVEN POLYPROPYLENE FABRIC - Provided is a non-woven fabric produced by using a polypropylene-based resin composition containing a specific low-crystalline polypropylene. The non-woven fabric is a non-woven fabric obtained by achieving reductions in denier values of fibers, the non-woven fabric being excellent in dispersibility of the fibers. | 11-29-2012 |
20120322330 | ELASTIC NONWOVEN CLOTH AND FIBER PRODUCT - To provide an elastic nonwoven cloth that is excellent in elastic recovery property and has pleasant texture without stickiness, and a fiber product using the elastic nonwoven cloth, by an elastic nonwoven cloth containing fibers that are spun at a spinning speed of from 500 to 2,500 m/min and contain a low crystalline polypropylene that satisfies (a) [mmmm]=20 to 60% by mol, (b) [rrrr]/(1−[mmmm])≦0.1, (c) [rmrm]>2.5% by mol, (d) [mm]×[rr]/[mr] | 12-20-2012 |
20130309931 | METHOD FOR PRODUCING SPUN-BONDED NONWOVEN FABRIC AND SPUN-BONDED NONWOVEN FABRIC - The method of producing a spunbond nonwoven fabric promotes the bleed out of the additive, which has pleasant texture such as tactile feel and excellent flexibility. The spunbond nonwoven fabric is obtained by this method. Specifically, (1) the method of producing a spunbond nonwoven fabric includes annealing a spunbond nonwoven fabric formed by using a crystalline resin composition (I) containing a low crystalline olefin polymer (a) with an elastic modulus of 10 to 450 MPa in a content of 1 to 50% by mass, a high crystalline olefin polymer (b) with an elastic modulus of 500 to 2,000 MPa, the content of the component (b) being the rest, and an additive (c) in a content of 1 to 20,000 ppm by mass. Furthermore, (2) the method of producing a spunbond nonwoven fabric includes annealing a spunbond nonwoven fabric formed by using a core-sheath composite fiber containing a crystalline resin composition (I) as the sheath component; and a crystalline resin composition (II) as the core component containing a high crystalline olefin polymer (b′) with an elastic modulus of 500 to 2,000 MPa. | 11-21-2013 |
20130323995 | NONWOVEN FABRIC AND TEXTILE PRODUCT - The nonwoven fabric has excellent secondary fabrication properties, specially, low temperature heat-sealing properties. The textile product is formed by using the nonwoven fabric. More specifically, the nonwoven fabric includes one or more layers, wherein the nonwoven fabric made of one layer, or at least one layer of the nonwoven fabric composed of two layers, or at least one layer of the two outermost layers of the nonwoven fabric of multi-layer consisting of three or more layers is formed by using a crystalline resin composition containing 1 to 99% by mass of a low crystalline olefin polymer satisfying the following expression (a): ΔH≧6×(Tm−140° C.) wherein ΔH represents a melt endotherm, and Tm represents a melting point. | 12-05-2013 |
Yohei Koori, Ichihara-Shi JP
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20150239204 | MULTILAYER NONWOVEN FABRIC AND METHOD FOR PRODUCING SAME - Provided are a multilayer nonwoven fabric having a meltblown nonwoven fabric layer and a spunbonded nonwoven fabric layer, the multilayer nonwoven fabric having high strength and high water pressure resistance, and a method for producing the same. The multilayer nonwoven fabric includes three or more layers, wherein two outermost layers are spunbonded nonwoven fabric layers, at least one inner layer is a meltblown nonwoven fabric layer, and a resin that forms the spunbonded nonwoven fabric layer has a melting endotherm ΔH, as measured from a melting endothermic curve which is obtained by holding the resin at −10° C. for 5 minutes under a nitrogen atmosphere and then increasing the temperature at a rate of 10° C./min with a differential scanning calorimeter (DSC), of 90 J/g or less. | 08-27-2015 |
Yoshinobu Koori, Yokohama JP
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20140153693 | INSPECTION METHOD FOR WELDED JOINT - An inspection method for a welded joint formed between a pair of base metals | 06-05-2014 |