公开(公告)号：US20100288424A1

公开(公告)日：2010-11-18

申请号：US12671230

申请日：2008-04-22

Applicant: Kenichi Yamashita

Inventor： Kenichi Yamashita

IPC: B29D30/32

CPC classification number: B29D30/60 ,  B29D30/16 ,  B29D30/1628 ,  B29D30/20 ,  B29D30/72 ,  B29D2030/722 ,  B60C11/01 ,  B60C13/02

Abstract: The present invention is to provide a method for manufacturing a pneumatic tire with reduced dynamic unbalance and enhanced durability. The method for manufacturing a pneumatic tire having projections in a buttress portion comprises the steps of laminating a sidewall rubber 17 on the outer side of a carcass ply 12 and expanding the diameter of a shaping drum 1, followed by laminating a belt layer 19 and a tread rubber 18 on the outer side of the position corresponding to a crown portion of the carcass ply 12 to mold a green tire G, laminating a strip-shaped rubber member 21 to a buttress portion B of the green tire G to form annular projection parts 22, and vulcanization molding the green tire G with a mold.

Abstract translation: 本发明提供一种具有减小的动态不平衡和增强的耐久性的充气轮胎的制造方法。 用于制造在支撑部分中具有突起的充气轮胎的方法包括以下步骤：将侧壁橡胶17层叠在胎体帘布层12的外侧，并且扩大成形鼓1的直径，然后层压带束层19和 在对应于胎体帘布层12的胎冠部的位置的外侧的胎面橡胶18，以模制生胎G，将条状橡胶构件21层叠到生胎G的支撑部B，形成环状的突起部 并且用模具硫化成型生胎G。

公开(公告)号：US20090159849A1

公开(公告)日：2009-06-25

申请号：US12094886

申请日：2006-11-17

Applicant: Masato Uehara ,  Hiroyuki Nakamura ,  Hideaki Maeda ,  Masaya Miyazaki ,  Yoshiko Yamaguchi ,  Kenichi Yamashita

Inventor： Masato Uehara ,  Hiroyuki Nakamura ,  Hideaki Maeda ,  Masaya Miyazaki ,  Yoshiko Yamaguchi ,  Kenichi Yamashita

IPC: C09K11/54 ,  C09K11/08 ,  C09K11/56 ,  C09K11/88

CPC classification number: C09K11/02 ,  C09K11/621

Abstract: To provide a fluorescent having low toxicity and high quantum yield, and a method for producing the same. The fluorescent is a compound comprising each one of I, III and VI group elements having a chalcopyrite structure, has a particle diameter of 0.5 to 20.0 nm and a quantum yield of at least 3% but not more than 30% at room temperature. The fluorescent is produced by: mixing a first solution (solution A), which is prepared by dissolving and mixing copper (I) salt and indium (III) salt in a solution added with a complexing agent coordinating copper (I) and indium (III), with a second solution (solution C) in which a sulfur compound is dissolved; ripening the mixed solution for a predetermined amount of time as a pretreatment; heat-treating the ripened solution under predetermined heat conditions; mixing the ripened solution with the second solution (solution C); and heating thus obtained mixed solution under predetermined synthesis conditions. In addition, a product produced by this production method is subjected to compositing treatment with ZnSe, ZnS or the like to improve the quantum yield.

Abstract translation: 提供具有低毒性和高量子产率的荧光体及其制造方法。 荧光是包含具有黄铜矿结构的I，III和VI族元素中的每一个的化合物，其在室温下的粒径为0.5-20.0nm，量子产率为至少3％但不超过30％。 荧光灯通过以下方法制备：将通过将铜（I）盐和铟（III）盐溶解并混合在加入配位铜（I）和铟（III）的配位剂的溶液中制备的第一溶液（溶液A） ），其中溶解有硫化合物的第二溶液（溶液C）; 将混合溶液熟化预定时间作为预处理; 在预定的热条件下热处理成熟的溶液; 将熟化溶液与第二溶液（溶液C）混合; 并在预定的合成条件下加热如此获得的混合溶液。 此外，通过该制造方法制造的产品用ZnSe，ZnS等进行复合处理以提高量子产率。

公开(公告)号：US20070128350A1

公开(公告)日：2007-06-07

申请号：US10570384

申请日：2004-08-17

Applicant: Hiroyuki Nakamura ,  Masato Uehara ,  Hongzhi Wang ,  Hideaki Maeda ,  Masaya Miyazaki ,  Yoshiko Yamaguchi ,  Kenichi Yamashita ,  Hazime Shimizu ,  Xyanying Li

Inventor： Hiroyuki Nakamura ,  Masato Uehara ,  Hongzhi Wang ,  Hideaki Maeda ,  Masaya Miyazaki ,  Yoshiko Yamaguchi ,  Kenichi Yamashita ,  Hazime Shimizu ,  Xyanying Li

IPC: D06L3/12 ,  B05B5/00

CPC classification number: C09C1/00 ,  B82Y30/00 ,  C01B19/007 ,  C01P2004/62 ,  C01P2004/64 ,  C01P2004/84 ,  C09C1/10 ,  C09K11/565 ,  C09K11/883 ,  Y10T428/2991 ,  Y10T428/2993

Abstract: In the present invention, the fine particle composite process is carried out with the step of reacting fine core particles and a raw material for coating layer by mixing them and continuously supplying a resulting mixture into a micro flow path. The micro flow path is specified to 1-4000 in Reynolds number. With this arrangement, the present invention ensures, in a technology using a reactor having a micro flow path, accurate control of reaction condition, uniformity of coating amount distribution, easy layer formation, and successive production of fine composite particles.

Abstract translation: 在本发明中，微粒复合方法是通过混合它们使细芯颗粒和涂层原料反应的步骤进行的，并将所得混合物连续供给到微流路中。 微流径在雷诺数中规定为1-4000。 通过这种布置，本发明在使用具有微流路的反应器的技术的技术中确保了反应条件的精确控制，涂布量分布的均匀性，容易的层形成和细微复合颗粒的连续生产。

公开(公告)号：US20060086573A1

公开(公告)日：2006-04-27

申请号：US11298686

申请日：2005-12-12

Applicant: Nobuhisa Motoyama ,  Hiromi Inaba ,  Atsushi Kawabata ,  Yoshinori Ohkura ,  Kenichi Yamashita

Inventor： Nobuhisa Motoyama ,  Hiromi Inaba ,  Atsushi Kawabata ,  Yoshinori Ohkura ,  Kenichi Yamashita

IPC: B66B1/34 ,  B66B3/00

CPC classification number: B66B1/3415 ,  B66B1/34

Abstract: An elevator system in which a car travels upward and downward among a plurality of floors. The elevator system includes a first terminal having a wireless transmitting/receiving unit provided for at least one of the plurality of floors and a second terminal having a wireless transmitting/receiving unit associated with the car. A mobile terminal is provided which enables wireless transmitting/receiving of signals between at least the first and second terminals.

Abstract translation: 一种电梯系统，其中轿厢在多个楼层之间上下移动。 电梯系统包括具有为多个楼层中的至少一个提供的无线发送/接收单元的第一终端和具有与轿厢相关联的无线发送/接收单元的第二终端。 提供一种能够在至少第一和第二终端之间进行信号的无线发送/接收的移动终端。

公开(公告)号：US20060062701A1

公开(公告)日：2006-03-23

申请号：US10521469

申请日：2003-07-17

Applicant: Hiroyuki Nakamura ,  Hongzhi Wang ,  Xianying Li ,  Masaya Miyazaki ,  Kenichi Yamashita ,  Yoshiko Yamaguchi ,  Hideaki Maeda

Inventor： Hiroyuki Nakamura ,  Hongzhi Wang ,  Xianying Li ,  Masaya Miyazaki ,  Kenichi Yamashita ,  Yoshiko Yamaguchi ,  Hideaki Maeda

IPC: B01J19/00

CPC classification number: H05B6/806 ,  B01J19/0093 ,  B01J19/126 ,  B01J19/247 ,  B01J2219/00788 ,  B01J2219/00835 ,  B01J2219/00941 ,  B01J2219/1227 ,  H05B2206/046

Abstract: The present invention relates to a method of manufacturing a micro reactor device that includes a tubular reactor (1) as a flow path, for allowing reaction species to react in the reactor (1). The micro reactor device is manufactured by forming a particle layer (2) on an inner wall of the reactor (1). The particle layer (2) can be formed by causing a dispersion liquid of particles to flow through the reactor (1) and drying. In this way, it is possible to provide a method of manufacturing a micro reactor device having an inner wall modified so that the reaction species can react more efficiently, and to provide the micro reactor device.

Abstract translation: 本发明涉及一种制造微反应器装置的方法，其包括作为流路的管式反应器（1），用于允许反应物质在反应器（1）中反应。 微反应器装置通过在反应器（1）的内壁上形成颗粒层（2）来制造。 颗粒层（2）可以通过使颗粒的分散液体流过反应器（1）并干燥而形成。 以这种方式，可以提供一种制造具有内壁的微反应器装置的方法，所述内壁被改性，使得反应种类能够更有效地反应，并提供微反应器装置。

公开(公告)号：US20060046308A1

公开(公告)日：2006-03-02

申请号：US10527987

申请日：2003-09-24

Applicant: Kenichi Yamashita ,  Hideaki Maeda ,  Hajime Shimizu ,  Masaya Miyazaki ,  Hiroyuki Nakamura ,  Yoshiko Yamaguchi

Inventor： Kenichi Yamashita ,  Hideaki Maeda ,  Hajime Shimizu ,  Masaya Miyazaki ,  Hiroyuki Nakamura ,  Yoshiko Yamaguchi

IPC: B01J19/00

CPC classification number: B01J19/0093 ,  B01J2219/00822 ,  B01J2219/00826 ,  B01J2219/00831 ,  B01J2219/00833 ,  B01J2219/0086 ,  B01J2219/00889 ,  B01J2219/00891 ,  B01J2219/0097 ,  Y10T436/2575

Abstract: A method of chemically reacting two or more reactants which react one another, which comprises fixing molecules of the reactants to fluids and supplying them to a microchannel to efficiently conduct the chemical reaction based on the molecular structure or molecular orientation imparted to the microchannel or on the function of changing the distributed state of molecules in a solution.

Abstract translation: 一种使两种或更多种彼此反应的反应物化学反应的方法，其包括将反应物的分子固定在流体上并将其供应到微通道中，以有效地进行基于赋予微通道的分子结构或分子取向的化学反应 改变溶液中分子的分布状态的功能。

公开(公告)号：US06368807B2

公开(公告)日：2002-04-09

申请号：US09733365

申请日：2000-12-08

Applicant: Yoshihiko Makino ,  Kazunobu Takahashi ,  Makoto Takagi ,  Shigeori Takenaka ,  Kenichi Yamashita

Inventor： Yoshihiko Makino ,  Kazunobu Takahashi ,  Makoto Takagi ,  Shigeori Takenaka ,  Kenichi Yamashita

IPC: C12Q168

CPC classification number: C07F17/02

Abstract: A compound of the following formula: Ea—La—X—Lb—Eb in which each of Ea and Eb independently is a group having oxidation-reduction activity and having a conjugated system in its group; X is a divalent cyclic group; and each of La and Lb independently is a group which does not form a conjugated system in combination with the conjugated system of each of Ea and Eb and at least one of which has a site imparting water solubility to the compound or a site that is convertible into a site imparting water solubility to the compound, is favorably employable as an electroconductive threading intercalator in an electrochemical method for detecting complementary DNA fragments.

Abstract translation: 下式的化合物：其中Ea和Eb各自独立地是具有氧化还原活性的基团并且在其组中具有共轭体系; X是二价环状基团; 独立地，La和Lb各自是不与Ea和Eb各自的共轭体系结合形成共轭体系的基团，并且其中至少一个具有赋予化合物或可转化位点水溶性的位点 成为赋予化合物水溶性的部位有利地用作检测互补DNA片段的电化学方法中的导电穿线嵌入剂。

公开(公告)号：US20100051330A1

公开(公告)日：2010-03-04

申请号：US12447977

申请日：2007-07-18

Applicant: Kenichi Yamashita ,  Yoshiki Nakatani ,  Akitsugu Hatano

Inventor： Kenichi Yamashita ,  Yoshiki Nakatani ,  Akitsugu Hatano

IPC: H05K1/03

CPC classification number: H05K3/323 ,  C09J9/02 ,  G02F1/13452 ,  H01L24/31 ,  H01L24/83 ,  H01L2224/0554 ,  H01L2224/05568 ,  H01L2224/05573 ,  H01L2224/16225 ,  H01L2224/2929 ,  H01L2224/29344 ,  H01L2224/29355 ,  H01L2224/29399 ,  H01L2224/29499 ,  H01L2224/32225 ,  H01L2224/73204 ,  H01L2224/83851 ,  H01L2924/00014 ,  H01L2924/01004 ,  H01L2924/01078 ,  H01L2924/01079 ,  H01L2924/14 ,  H01L2924/3511 ,  H05K1/0366 ,  H05K3/361 ,  H05K2201/09036 ,  H05K2201/10674 ,  H01L2924/0665 ,  H01L2224/05599 ,  H01L2224/0555 ,  H01L2224/0556

Abstract: A wiring board formed by mounting an IC chip on a mounting substrate includes a resin substrate and a wiring pattern. The resin substrate includes having a reinforcing material obtained by impregnating glass fibers with a resin and an organic layer provided on a surface of the reinforcing material. The wiring pattern is disposed on a surface of the resin substrate through a coating layer. The IC chip includes a bump electrode for connection with the wiring pattern. The resin substrate includes a fiber exposure portion through which the reinforcing material is exposed, and the IC chip is fixed to the mounting substrate through an ACF adhered to the fiber exposure portion with the connection electrode being connected to the wiring pattern.

Abstract translation: 通过将IC芯片安装在安装基板上而形成的布线基板包括树脂基板和布线图案。 树脂基板包括具有通过用设置在增强材料的表面上的树脂和有机层浸渍玻璃纤维而获得的增强材料。 布线图案通过涂层设置在树脂基板的表面上。 IC芯片包括用于与布线图案连接的凸块电极。 树脂基板包括曝光了增强材料的光纤曝光部，并且通过连接电极与布线图案连接的光纤曝光部分的ACF将IC芯片固定在安装基板上。

公开(公告)号：US07641821B2

公开(公告)日：2010-01-05

申请号：US10760389

申请日：2004-01-21

Applicant: Kunishige Oe ,  Kenichi Yamashita ,  Kazunori Mune ,  Amane Mochizuki ,  Ryuusuke Naitou

Inventor： Kunishige Oe ,  Kenichi Yamashita ,  Kazunori Mune ,  Amane Mochizuki ,  Ryuusuke Naitou

IPC: B29D11/00

CPC classification number: G02B6/138 ,  G02B6/3801 ,  G02B6/4212

Abstract: The invention provides a process of manufacturing an optical waveguide for optically connecting a plurality of optical devices, comprising the steps of: disposing a resin composition between two or more optical devices, the resin composition comprising a resin and a 1,4-dihydropyridine derivative, forming an optical path through the resin composition between the optical devices by light having a wavelength capable of inducing a structural change in the 1,4-dihydropyridine derivative, and removing the 1,4-dihydropyridine derivative from the resulting resin composition. Also disclosed is a connection structure obtained by the process.

Abstract translation: 本发明提供一种制造用于光学连接多个光学器件的光波导的方法，包括以下步骤：在两个或更多个光学器件之间设置树脂组合物，所述树脂组合物包含树脂和1,4-二氢吡啶衍生物， 通过具有能够引起1,4-二氢吡啶衍生物的结构变化的波长的光形成通过光学器件之间的树脂组合物的光路，并从所得树脂组合物中除去1,4-二氢吡啶衍生物。 还公开了通过该方法获得的连接结构。

公开(公告)号：USD537947S1

公开(公告)日：2007-03-06

申请号：US29218321

申请日：2004-12-01

Applicant: Takafumi Miyachika ,  Kenichi Yamashita

Designer： Takafumi Miyachika ,  Kenichi Yamashita