公开(公告)号：US09182249B2

公开(公告)日：2015-11-10

申请号：US13983955

申请日：2012-02-14

Applicant: Keigo Suzuki ,  Masaki Hiei

Inventor： Keigo Suzuki ,  Masaki Hiei

IPC: G01B7/30 ,  G01D5/14

CPC classification number: G01D5/145

Abstract: A rotation angle detection device capable of obtaining a detection result in a wider angle range with high accuracy. The rotation angle detection device is provided with a part to be detected which is attached to a throttle shaft S by a rotor, and a Hall IC which detects magnetic flux components of the part to be detected. The Hall IC is provided with a magnetism collecting plate which is disposed facing the part to be detected and extends along the rotation surface of the part to be detected, and Hall elements which detect the magnetic flux components of the part to be detected, and output a signal corresponding to the rotation position of the throttle shaft S on the basis of the results of the detection by the Hall elements. The Hall elements each detect a magnetic flux component in an X-axis direction passing through the rotation axis of the throttle shaft S. The Hall elements each detect a magnetic flux component in the Y-axis direction passing through the rotation axis of the throttle shaft S. The part to be detected is configured by combining a semicircular yoke with a semiannular magnet.

Abstract translation: 一种旋转角度检测装置，能够以更高的精度获得更宽的角度范围的检测结果。 旋转角度检测装置具有通过转子与节流轴S连接的被检测部，以及检测待检测部的磁通成分的霍尔IC。 霍尔IC设置有面向待检测部件并沿着待检测部件的旋转表面延伸的磁集合板和检测待检测部件的磁通量分量的霍尔元件，并输出 基于霍尔元件的检测结果，对应于节流阀轴S的旋转位置的信号。 霍尔元件分别检测通过节流轴S的旋转轴的X轴方向的磁通分量。霍尔元件分别检测通过节流轴的旋转轴的Y轴方向的磁通分量 S.要检测的部件是通过半圆形磁轭与半圆形磁体组合而构成的。

公开(公告)号：US08381610B2

公开(公告)日：2013-02-26

申请号：US13209601

申请日：2011-08-15

Applicant: Masaki Hiei ,  Keigo Suzuki

Inventor： Masaki Hiei ,  Keigo Suzuki

IPC: B62K23/04

CPC classification number: B62K23/04 ,  G01D5/145 ,  Y10T74/20396 ,  Y10T74/20474 ,  Y10T74/20492 ,  Y10T74/20828

Abstract: An accelerator device for performing an acceleration operation includes a rotary body which rotates with rotation of a grip, a magnet which rotates with rotation of the rotary body, a rotation angle detector which detects a rotation angle of the magnet, an urging member which returns the grip to an original point position by urging the rotary body, and a separation member which separates the rotary body and the rotation angle detector, the rotation angle detector is fixed to the separation member and the rotary body is rotatably held thereby while the urging member urges the rotary body toward the separation member as well as in the rotation direction, so that positional variation of the rotation angle detector against the magnet can be prevented.

Abstract translation: 用于执行加速操作的加速器装置包括：旋转体，该旋转体随着手柄的旋转而旋转;旋转体旋转的磁体;检测磁铁旋转角度的旋转角度检测器; 通过推动旋转体来抓握到原点位置，以及分离构件，其将旋转体和旋转角度检测器分离，旋转角度检测器固定到分离构件，并且旋转体可旋转地保持，同时推动构件推动 旋转体朝向分离构件以及旋转方向，从而可以防止旋转角度检测器相对于磁体的位置变化。

公开(公告)号：US20110314955A1

公开(公告)日：2011-12-29

申请号：US13209601

申请日：2011-08-15

Applicant: Masaki HIEI ,  Keigo Suzuki

Inventor： Masaki HIEI ,  Keigo Suzuki

IPC: B62K23/04 ,  G01B7/30

CPC classification number: B62K23/04 ,  G01D5/145 ,  Y10T74/20396 ,  Y10T74/20474 ,  Y10T74/20492 ,  Y10T74/20828

Abstract: An accelerator device for performing an acceleration operation includes a rotary body which rotates with rotation of a grip, a magnet which rotates with rotation of the rotary body, a rotation angle detector which detects a rotation angle of the magnet, an urging member which returns the grip to an original point position by urging the rotary body, and a separation member which separates the rotary body and the rotation angle detector, the rotation angle detector is fixed to the separation member and the rotary body is rotatably held thereby while the urging member urges the rotary body toward the separation member as well as in the rotation direction, so that positional variation of the rotation angle detector against the magnet can be prevented.

Abstract translation: 用于执行加速操作的加速器装置包括：旋转体，该旋转体随着手柄的旋转而旋转;旋转体旋转的磁体;检测磁铁旋转角度的旋转角度检测器; 通过推动旋转体来抓握到原点位置，以及分离构件，其将旋转体和旋转角度检测器分离，旋转角度检测器固定到分离构件，并且旋转体可旋转地保持，同时推动构件推动 旋转体朝向分离构件以及旋转方向，从而可以防止旋转角度检测器相对于磁体的位置变化。

公开(公告)号：US20100035791A1

公开(公告)日：2010-02-11

申请号：US12443798

申请日：2007-10-02

Applicant: Takako Igarashi ,  Nobuyuki Ogura ,  Tadanori Yoshimura ,  Keigo Suzuki

Inventor： Takako Igarashi ,  Nobuyuki Ogura ,  Tadanori Yoshimura ,  Keigo Suzuki

IPC: C11D3/37

CPC classification number: D06M15/267 ,  C08L33/14 ,  C08L33/26 ,  C08L83/04 ,  C08L2205/02 ,  C09D133/26 ,  D06M15/285 ,  D06M15/6436 ,  D06M15/647 ,  D06M2200/20 ,  C08L2666/04

Abstract: The present invention relates to a treatment composition for textile products for use in a drying machine, which contains weight-average molecular weight of 500,000 to 10,000,000 and a method of treatment of textile products, including subjecting textile products treated with the treatment composition for textile products to heat treatment in a heating-type drying machine. Specifically, the present invention relates to a treatment composition for textile products for use in a drying machine, which contains a water-soluble cationic polymer having a weight-average molecular weight of 500,000 to 10,000,000 (referred to hereinafter as component (A)), a water-insoluble cationic polymer (referred to hereinafter as component (B)) and a silicone compound (referred to hereinafter as component (C)), wherein the ratio of component (A) to the total mass of the components (A) and (B) is 3 to 100% by mass and the ratio of the total mass of the components (A) and (B) to the total mass of the components (A), (B) and (C) is 5 to 85% by mass.

Abstract translation: 本发明涉及一种干燥机用的纺织品的处理组合物，其含有重均分子量为50万〜10,000,000的纺织品的处理组合物，以及纺织品的处理方法， 在加热型干燥机中进行热处理。 具体地说，本发明涉及用于干燥机的纺织品的处理组合物，其含有重均分子量为500,000〜10,000,000（以下称为成分（A））的水溶性阳离子聚合物， 水溶性阳离子聚合物（以下称为组分（B））和硅氧烷化合物（以下称为组分（C）），其中组分（A）与组分（A）和 （B）为3〜100质量％，（A）成分和（B）成分的总质量与成分（A），（B）和（C）的总质量的比例为5〜85质量％ 的质量。

公开(公告)号：US20090176094A1

公开(公告)日：2009-07-09

申请号：US12097780

申请日：2006-12-26

Applicant: Keigo Suzuki ,  Seiichi Miyanaga

Inventor： Keigo Suzuki ,  Seiichi Miyanaga

IPC: D06M15/643 ,  D02G3/36 ,  D06M13/513

CPC classification number: C07F7/0836 ,  D06M13/513 ,  D06M15/643 ,  D21C9/002 ,  D21H11/20 ,  Y10T428/2962

Abstract: The present invention relates to a fiber modifying method including step (i) of contacting an organosiliconate with fiber and step (ii) of polymerizing the organosiliconate, a modified fiber modified by this method and a fiber modifying agent containing an organosiliconate and water.

Abstract translation: 本发明涉及一种纤维改性方法，其包括使有机硅酸酯与纤维接触的步骤（ⅰ）和使有机硅酸酯聚合的步骤（ⅱ），通过该方法改性的改性纤维和含有机硅酸盐和水的纤维改性剂。

公开(公告)号：US20050161509A1

公开(公告)日：2005-07-28

申请号：US10275405

申请日：2002-03-26

Applicant: Hidekuni Aizawa ,  Keigo Suzuki ,  Tamiaki Matsuura

Inventor： Hidekuni Aizawa ,  Keigo Suzuki ,  Tamiaki Matsuura

IPC: G02B7/182 ,  G06K7/10 ,  G02B26/00

CPC classification number: G02B7/1821 ,  G06K7/10643

Abstract: A bar code reading apparatus comprises: a laser module (1) having a light-emitting device (13) and a light-receiving device (14) arranged in a substantially orthogonal state; a moving mirror having a mirror mounted on a stand, swing shafts provided on both sides of the stand, a magnet mounted on a lower side of the stand, a supporting pole arranged below the magnet, and an air-core driving coil in which the supporting pole is inserted; and a light-emitting lens for condensing a light beam from the light-emitting device (13) and reflecting the light beam to the mirror; the laser module, the moving mirror and the light-emitting lens being housed in a housing. Thus, miniaturization of the reading apparatus is realized, and the bar code reading apparatus is provided in which the light-receiving accuracy is improved while the swing of the mirror is secured.

Abstract translation: 一种条形码读取装置，包括：激光模块（1），具有发光装置（13）和以基本正交状态排列的光接收装置（14）; 具有安装在支架上的镜子的移动镜，设置在支架的两侧的摆动轴，安装在支架的下侧的磁体，设置在磁体下方的支撑杆，以及空心驱动线圈， 支撑杆插入; 和用于聚集来自发光装置（13）的光束并将光束反射到反射镜的发光透镜; 激光模块，移动镜和发光透镜被容纳在壳体中。 因此，实现了读取装置的小型化，并且提供了条形码读取装置，其中确保了反射镜的摆动时光接收精度得到改善。

公开(公告)号：US20130314079A1

公开(公告)日：2013-11-28

申请号：US13983955

申请日：2012-02-14

Applicant: Keigo Suzuki ,  Masaki Hiei

Inventor： Keigo Suzuki ,  Masaki Hiei

IPC: G01D5/14

CPC classification number: G01D5/145

Abstract: Provided is a rotation angle detection device capable of obtaining a detection result in a wider angle range with high accuracy. A rotation angle detection device 1 is provided with a part to be detected 4 which is attached to a throttle shaft S by a rotor 3, and a Hall IC 5 which detects magnetic flux components of the part to be detected 4. The Hall IC 5 is provided with a magnetism collecting plate 51 which is disposed facing the part to be detected 4 and extends along the rotation surface of the part to be detected 4, and Hall elements 52 which detect the magnetic flux components of the part to be detected 4, and output a signal corresponding to the rotation position of the throttle shaft S on the basis of the results of the detection by the Hall elements 52. The Hall elements 52a, 52c each detect a magnetic flux component in an X-axis direction passing through the rotation axis of the throttle shaft S. The Hall elements 52b, 52d each detect a magnetic flux component in the Y-axis direction passing through the rotation axis of the throttle shaft S. The part to be detected 4 is configured by combining a semicircular yoke 41 with a semiannular magnet 42.

Abstract translation: 提供了能够以更高的精度获得更宽的角度范围的检测结果的旋转角度检测装置。 旋转角度检测装置1具有通过转子3安装在节流轴S上的待检测部件4以及检测待检测部件4的磁通量成分的霍尔IC5。霍尔IC5 设置有面向待检测部件4并且沿着被检测部件4的旋转表面延伸的磁集合板51以及检测待检测部件4的磁通量分量的霍尔元件52， 根据霍尔元件52的检测结果，输出与节气门轴S的旋转位置对应的信号。霍尔元件52a，52c分别检测X轴方向的磁通分量， 节气门轴S的旋转轴线。霍尔元件52b，52d分别检测通过节流轴S的旋转轴线的Y轴方向的磁通分量。检测部件4通过将半 具有半圆形磁体42的圆形轭41。

公开(公告)号：US06837434B2

公开(公告)日：2005-01-04

申请号：US10196779

申请日：2002-07-17

Applicant: Kazuo Shibuya ,  Kenji Takase ,  Tsuguaki Shibata ,  Shigeru Shinzawa ,  Tamiaki Matsuura ,  Hidekuni Aizawa ,  Keigo Suzuki ,  Hideo Ohata

Inventor： Kazuo Shibuya ,  Kenji Takase ,  Tsuguaki Shibata ,  Shigeru Shinzawa ,  Tamiaki Matsuura ,  Hidekuni Aizawa ,  Keigo Suzuki ,  Hideo Ohata

IPC: G06K7/10 ,  H01S5/022

CPC classification number: G06K7/10702

Abstract: The present invention provides a laser module that can maintain weldability of a lens holder and improve machinability, and it protects a burr from being induced, and thereby improves optical accuracy, improves a reading accuracy of a bar code, improves mass productivity and reduces a manufacturing cost. In a laser module for a bar code reader, which has a packaged structure including a light emitting element and a light projection lens, for collecting a beam emitted from the light emitting element through the light projection lens and irradiating to an irradiation target, it includes: a cylindrical housing, in which the light emitting element is engaged with one end side; and a cylindrical lens holder, which is engaged with the other end side of the housing, for holding therein the light projection lens. Then, the lens holder is provided with: an inner cylinder, which is made of a metal having good machinability, for holding therein the light projection lens; and an outer cylinder engaged with a periphery of the inner cylinder and integrated with the inner cylinder, whose outer circumference is made of a metal having good weldability to be welded to the housing.

公开(公告)号：US20080230479A1

公开(公告)日：2008-09-25

申请号：US12052586

申请日：2008-03-20

Applicant: Keigo Suzuki ,  Keisuke Abe

Inventor： Keigo Suzuki ,  Keisuke Abe

IPC: B01D21/34 ,  B01D15/08

CPC classification number: B01F15/0416 ,  B01D15/166 ,  G01N30/34 ,  G01N30/95

Abstract: A liquid chromatograph control apparatus for controlling the solvent mixing ratios of liquid chromatography, comprising a storage means for storing the correspondence relationship between the plural discrete Rf values obtained by thin layer chromatography performed on respective samples at a preset solvent mixing ratio and the appropriate sequences of solvent mixing ratios of liquid chromatography for the respective samples; an arithmetic means for obtaining, by interpolation, the appropriate sequence of solvent mixing ratios corresponding to any Rf value falling between the stored Rf values adjacent to each other; and an image processing means for imaging the thin layer plates obtained by performing thin layer chromatography, to obtain Rf values from the images.

Abstract translation: 一种用于控制液相色谱的溶剂混合比的液相色谱控制装置，包括存储装置，用于存储以预设的溶剂混合比例对各样品进行的薄层色谱获得的多个离散Rf值与适当的序列 相应样品的液相色谱的溶剂混合比; 算术装置，用于通过插值获得对应于落在彼此相邻的存储的Rf值之间的任何Rf值的适当的溶剂混合比例序列; 以及图像处理装置，用于对通过薄层色谱法获得的薄层板进行成像，以从图像获得Rf值。

公开(公告)号：US20080200432A1

公开(公告)日：2008-08-21

申请号：US12089272

申请日：2006-10-05

Applicant: Keigo Suzuki ,  Seiichi Miyanaga

Inventor： Keigo Suzuki ,  Seiichi Miyanaga

IPC: A61K31/695 ,  C07F7/04 ,  A61P43/00

CPC classification number: D06M13/513 ,  D06M13/51 ,  D06M15/643 ,  D21H19/32

Abstract: The present invention relates to a fiber-treating agent having a pH value of 2 to 5 at 20° C. and containing an alkoxysilane (a), an organic acid (b) and water (c), wherein 50% or more by weight of the component (a) is an alkoxysilane represented by the following formula (1): R1pSi (OR2)4-p (1) wherein R1 represents a C1 to C6 alkyl group, a phenyl group, or a C2 to C6 alkenyl group, R2 represents a C1 to C6 alkyl group, and p is an integer of 1 to 3, and the number of moles of the component (c) is 3 times or more as large as that of the component (a), as well as a method of treating fibers with the fiber-treating agent, and fibers treated by this method.

Abstract translation: 本发明涉及在20℃下pH值为2〜5，含有烷氧基硅烷（a），有机酸（b）和水（c））的纤维处理剂，其中50重量％以上 （a）表示的烷氧基硅烷是由下式（1）表示的烷氧基硅烷：R 1是（S） 4-p（1）其中R 1表示C 1至C 6烷基，苯基或C 2至C 6烯基，R 2表示 C1〜C6烷基，p为1〜3的整数，（c）成分的摩尔数为组分（a）的摩尔数的3倍以上，以及 用纤维处理剂处理纤维，用该方法处理纤维。