公开(公告)号：US07045363B2

公开(公告)日：2006-05-16

申请号：US09306780

申请日：1999-05-07

Applicant: Fuminori Takemura ,  Eiichi Ueno ,  Satoru Itoh

Inventor： Fuminori Takemura ,  Eiichi Ueno ,  Satoru Itoh

IPC: G01N33/55 ,  G01N33/566 ,  C12Q1/00 ,  C12Q1/68 ,  C12N11/00

CPC classification number: C07K14/005 ,  C07K1/1077 ,  C07K14/003 ,  C07K14/46 ,  C07K2319/00 ,  C07K2319/40 ,  C12N15/62 ,  C12N2770/24222 ,  Y10S436/807 ,  Y10S436/824

Abstract: A nucleic acid-bound polypeptide produced by binding a nucleic acid to a polypeptide, a method of producing the nucleic acid-bound polypeptide, and applications of the nucleic acid-bound polypeptide, including immunoassays for an antigen or antibody, such as an agglutination immunoassay are provided.

Abstract translation: 通过将核酸与多肽结合而产生的核酸结合多肽，产生核酸结合多肽的方法以及核酸结合多肽的应用，包括针对抗原或抗体的免疫测定，例如凝集免疫测定 被提供。

公开(公告)号：US20080212999A1

公开(公告)日：2008-09-04

申请号：US12039405

申请日：2008-02-28

Applicant: Kensuke Masuda ,  Tomohiro Nakajima ,  Satoru Itoh ,  Daisuke Ichii ,  Masahiro Soeda ,  Yoshinori Hayashi

Inventor： Kensuke Masuda ,  Tomohiro Nakajima ,  Satoru Itoh ,  Daisuke Ichii ,  Masahiro Soeda ,  Yoshinori Hayashi

IPC: G01B9/02 ,  G02B26/08 ,  G03G15/00

CPC classification number: G02B26/124 ,  G03G15/0435 ,  G03G15/326

Abstract: A light-amount detecting device includes: a light source which emits a light beam; a branching optical element which divides the light beam emitted from the light source into a first light beam traveling in a predetermined direction and a second light beam traveling in a direction different to the predetermined direction; a light-condensing element which condenses the second light beam; a light-receiving element having a light-receiving surface which receives the second light beam condensed by the light-condensing element; and a detector which detects a light-amount of the second light beam received by the light-receiving element, and at least one of a direction of reflected light of the second light beam reflected from the light-receiving surface of the light-receiving element and spread of the reflected light of the second light beam reflected from the light-receiving surface of the light-receiving element is adjusted to control a light-amount of the reflected light of the second light beam returning to the light source.

Abstract translation: 光量检测装置包括：发射光束的光源; 分光光学元件，其将从光源发射的光束分成沿预定方向行进的第一光束和沿与所述预定方向不同的方向行进的第二光束; 冷凝所述第二光束的聚光元件; 具有受光面的光接收元件，所述光接收表面接收由所述聚光元件会聚的所述第二光束; 以及检测器，其检测由光接收元件接收的第二光束的光量，以及从受光元件的受光面反射的第二光束的反射光的方向中的至少一个 并且调节从光接收元件的光接收表面反射的第二光束的反射光的扩展，以控制返回到光源的第二光束的反射光的光量。

公开(公告)号：US07045773B2

公开(公告)日：2006-05-16

申请号：US10892191

申请日：2004-07-16

Applicant: Mitsuo Suzuki ,  Seizo Suzuki ,  Satoru Itoh

Inventor： Mitsuo Suzuki ,  Seizo Suzuki ,  Satoru Itoh

IPC: H01J3/14 ,  H01J40/14 ,  H01J5/16

CPC classification number: G02B26/125 ,  H04N1/047 ,  H04N1/1135 ,  H04N1/12 ,  H04N1/1911 ,  H04N2201/02439 ,  H04N2201/0471 ,  H04N2201/04712 ,  H04N2201/04713 ,  H04N2201/04722 ,  H04N2201/04729 ,  H04N2201/04731 ,  H04N2201/04732 ,  H04N2201/04734 ,  H04N2201/04744 ,  H04N2201/04749 ,  H04N2201/04763 ,  H04N2201/04781 ,  H04N2201/04789 ,  H04N2201/04791 ,  H04N2201/04794

Abstract: An optical scanning apparatus is provided, in which the optical scanning apparatus includes: a light source emitting an optical beam; an optical deflection unit deflecting the optical beam emitted from the light source; a scanning optical arrangement scanning a scanned surface by the optical beam in a main scanning direction; and an optical beam detection unit detecting the optical beam moving in the main scanning direction. The optical beam detection unit includes a first photodetector and a second photodetector, and the first photodetector including a first part and a second part that are electrically connected, wherein a first gap is formed between an edge of the first part and a first edge of the second photodetector, a second gap is formed between an edge of the second part and a second edge of the second photodetector, and the first gap and the second gap are not parallel to each other.

Abstract translation: 提供了一种光学扫描装置，其中光学扫描装置包括：发射光束的光源; 光偏转单元偏转从光源发射的光束; 扫描光学装置，沿主扫描方向由光束扫描扫描表面; 以及光束检测单元，检测沿主扫描方向移动的光束。 光束检测单元包括第一光电检测器和第二光电检测器，并且第一光电检测器包括电连接的第一部分和第二部分，其中在第一部分的边缘与第一部分的第一边缘之间形成第一间隙 第二光电检测器，在第二部分的边缘和第二光电检测器的第二边缘之间形成第二间隙，并且第一间隙和第二间隙不彼此平行。

公开(公告)号：US07012724B2

公开(公告)日：2006-03-14

申请号：US10912231

申请日：2004-08-06

Applicant: Hiromichi Atsuumi ,  Seizo Suzuki ,  Satoru Itoh

Inventor： Hiromichi Atsuumi ,  Seizo Suzuki ,  Satoru Itoh

IPC: G02B26/08

CPC classification number: G02B26/128 ,  Y10S359/90

Abstract: In an optical scanning device and image forming apparatus according to the present invention, a light source emits a light beam, and a scanning optical unit deflects the light beam from the light source and focuses the deflected light beam to form a light spot on a scanned surface, the scanned surface being scanned by the light beam from the scanning optical unit. A temperature detection unit detects a temperature of the scanning optical unit and its neighboring locations. A temperature compensation unit adjusts a focal-point position of the light beam on the scanned surface in accordance with a change in the temperature detected by the temperature detection unit, the temperature compensation unit adjusting the focal-point position of the light beam by directly varying a focusing effect of a corrector lens on the light beam from the light source by a controlled amount of movement of the corrector lens along its optical axis that corresponds to the temperature change.

Abstract translation: 在根据本发明的光学扫描装置和图像形成装置中，光源发射光束，扫描光学单元使来自光源的光束偏转并聚焦偏转的光束，以在扫描的光束上形成光点 表面，被扫描的表面被来自扫描光学单元的光束扫描。 温度检测单元检测扫描光学单元及其相邻位置的温度。 温度补偿单元根据由温度检测单元检测到的温度变化来调整扫描面上的光束的焦点位置，温度补偿单元通过直接变化来调整光束的焦点位置 通过对应于温度变化的校正透镜沿着其光轴的受控量的运动，校正透镜对来自光源的光束的聚焦效果。

公开(公告)号：US07903134B2

公开(公告)日：2011-03-08

申请号：US12038526

申请日：2008-02-27

Applicant: Akihisa Itabashi ,  Satoru Itoh ,  Mitsuo Suzuki

Inventor： Akihisa Itabashi ,  Satoru Itoh ,  Mitsuo Suzuki

IPC: B41J2/435 ,  B41J2/47

CPC classification number: H04N1/0473 ,  H04N1/1135 ,  H04N1/12 ,  H04N1/1911 ,  H04N1/506 ,  H04N2201/0471 ,  H04N2201/04734 ,  H04N2201/04744 ,  H04N2201/04749

Abstract: Each light detecting sensor, which is installed corresponding to each photoconductor drum, and to which the plurality of light beams passing through the scanning optical system are incident while moving in a main scanning direction includes a light-receiving device having a first light-receiving unit and a second light-receiving unit, which have different intervals from each other in the main scanning direction depending on a position of a sub-scanning direction, all the sizes of the first and the second light-receiving units being sizes covering an overall virtual area in a quadrangular shape surrounding a plurality of light spots in the light-receiving surface.

Abstract translation: 对应于每个感光鼓安装的每个光检测传感器并且通过扫描光学系统的多个光束在主扫描方向上移动时入射包括具有第一光接收单元的光接收装置 以及第二光接收单元，其根据副扫描方向的位置在主扫描方向上具有彼此不同的间隔，所述第一和第二光接收单元的所有尺寸都是覆盖整个虚拟 围绕光接收表面中的多个光点的四边形的区域。

公开(公告)号：US07738080B2

公开(公告)日：2010-06-15

申请号：US11687798

申请日：2007-03-19

Applicant: Satoru Itoh

Inventor： Satoru Itoh

IPC: G03B27/62

CPC classification number: G03F7/70766

Abstract: A stage apparatus includes a base, a stage that can move on a surface of the base, a first imparting unit arranged inside the base, which has a mass body and an actuator that is fixed to the base and moves the mass body in a direction vertical to the surface, the first imparting unit being configured to apply a force to the base by moving the mass body, and a controlling unit that controls the movement of the mass body in the vertical direction in the first imparting unit in accordance with movement of the stage, so that a force, which is generated in the base by the movement of the stage in a rotational direction around an axis parallel to the surface, is reduced.

Abstract translation: 舞台装置包括基座，能够在基座的表面上移动的台架，布置在基座内部的第一施加单元，其具有质量体和致动器，该主体和致动器固定到基座并沿着方向 所述第一赋予单元构造成通过移动所述质量体而向所述基座施加力;以及控制单元，其根据所述质量体的移动来控制所述质量体在所述第一赋予单元中的垂直方向上的移动 使得通过台架围绕平行于表面的轴线的旋转方向的运动在基座中产生的力减小。

公开(公告)号：US4177487A

公开(公告)日：1979-12-04

申请号：US891249

申请日：1978-03-29

Applicant: Mutsuo Takenouchi ,  Takashi Ozawa ,  Syoji Wako ,  Satoru Itoh

Inventor： Mutsuo Takenouchi ,  Takashi Ozawa ,  Syoji Wako ,  Satoru Itoh

IPC: H01J43/24 ,  H04N1/031 ,  H04N1/032 ,  H04N1/193 ,  H04N1/29 ,  H04N1/04

CPC classification number: H04N1/031 ,  H01J43/24 ,  H04N1/032 ,  H04N1/1931 ,  H04N1/29

Abstract: An electro-optical picture signal processing system, wherein an optical image is converted into time sequential electrical picture signals, or, conversely, time sequential electrical picture signals into an optical image or an electrostatic latent image, is provided with an electron emission plane arranged in one-dimension, a control electrode positioned face to face with said plane to control the passing of electrons from the electron emission plane, a secondary-electron multiplying device yielding secondary-electrons in response to the electrons passing through the control electrode, and an anode collecting the multiplied secondary-electrons. At least one of the electron emission plane and the control electrode is divided into a number of segments each as large as a picture-element, arranged in one-dimension, and one of the segments is selected from one end to the other. When an optical image is converted into time sequential electrical signals, the number of the electrons passing through a selected segment portion is controlled in response to brightness of each picture-element of the optical image. On the other hand, when time sequential electrical signals are converted into an optical image or an electrostatic latent image, the potential difference between the selected part of the electron emission plane and the control electrode is controlled by time sequential picture signals.

Abstract translation: 一种电光图像信号处理系统，其中光学图像被转换成时间顺序的电子图像信号，或者相反地，将时间顺序的电子图像信号转换成光学图像或静电潜像，设置有布置在 一维的控制电极，与所述平面面对面地控制电子从电子发射平面的通过;响应于通过控制电极的电子产生二次电子的二次电子倍增装置，以及阳极 收集相乘的二次电子。 电子发射平面和控制电极中的至少一个被分成多个排列成一维的图像元素的片段，并且其中一个片段从一端到另一端被选择。 当光学图像被转换为​​时间顺序的电信号时，响应于光学图像的每个图像元素的亮度来控制通过所选择的段部分的电子的数量。 另一方面，当时间顺序的电信号被转换为光学图像或静电潜像时，电子发射平面的所选部分与控制电极之间的电位差由时间顺序的图像信号控制。

公开(公告)号：US20120116645A1

公开(公告)日：2012-05-10

申请号：US10488199

申请日：2002-08-13

Applicant: Toshihiro Hamahata ,  Satoru Itoh

Inventor： Toshihiro Hamahata ,  Satoru Itoh

IPC: F01N11/00 ,  F01N3/023

CPC classification number: F01N9/002 ,  F01N3/0256 ,  F01N13/011 ,  F01N2410/04 ,  F01N2900/1606 ,  Y02T10/47

Abstract: In order to calculate an estimation of the amount of deposited particulates in a first filter (61) or a second filter (62), a first estimation calculating section (100) for outputting first estimation data (XA) based on pressure differential across the filter and a second estimation calculating section (110) for outputting second estimation data (XB) based on engine operating state are provided, the data between the first estimation data (XA) and the second estimation data (XB) that is the more reliable estimation data in light of engine (2) rotation is selected and whether or not filter regeneration should be conducted is decided. In addition, the difference between the first and second estimation data (XA, XB) is considered and when the difference is larger than a prescribed value, then even if the engine (2) rpm is high, selection of the first estimation data XA, which is apt to be an estimated value of low reliability owing to cracking of the deposited particulates, is avoided.

Abstract translation: 为了计算第一滤波器（61）或第二滤波器（62）中沉积的微粒量的估计，第一估计计算部分（100）用于基于滤波器上的压差输出第一估计数据（XA） 并且提供用于基于发动机运行状态输出第二估计数据（XB）的第二估计计算部（110），作为更可靠的估计数据的第一估计数据（XA）和第二估计数据（XB）之间的数据 根据发动机（2）的选择，决定是否进行过滤器再生。 此外，考虑第一和第二估计数据（XA，XB）之间的差异，并且当差值大于规定值时，即使发动机（2）rpm高，则选择第一估计数据XA， 这是容易成为由于沉积的微粒的破裂导致的低可靠性的估计值。

公开(公告)号：US07125877B2

公开(公告)日：2006-10-24

申请号：US10437176

申请日：2003-05-14

Applicant: Kensuke Kobayashi ,  Hirobumi Takahashi ,  Hiroshi Kawamoto ,  Tetsuya Kato ,  Satoru Itoh ,  Takashi Yoshizumi ,  Osamu Okamoto

Inventor： Kensuke Kobayashi ,  Hirobumi Takahashi ,  Hiroshi Kawamoto ,  Tetsuya Kato ,  Satoru Itoh ,  Takashi Yoshizumi ,  Osamu Okamoto

IPC: A61K31/496 ,  C07D403/04 ,  C07D405/14

CPC classification number: C07D235/24 ,  A61K31/496 ,  C07D235/12 ,  C07D235/14 ,  C07D401/04 ,  C07D401/06 ,  C07D403/04 ,  C07D403/08 ,  C07D405/06

Abstract: This invention provides compounds which are represented by a general formula [I] [in which X stands for hydrogen or halogen; B stands for halogen, cyano or optionally fluorine-substituted lower alkyl; D stands for a 3–10 membered aliphatic nitrogen-containing heterocyclic group; R3, R4 and R5 may be same or different, and each stands for hydrogen, lower alkyl optionally having substituent group(s) and the like; and a is 0 or 1]. These compounds exhibit high affinity to nociceptin receptors and whereby inhibit actions of nociceptin, and are useful as an analgesic, antiobestic, agent for ameliorating brain function, treating agents for Alzheimer's disease and dementia, and therapeutic agents for schizophrenia, neurodegenerative diseases, depression, diabetes insipidus, polyuria, hypotension and the like.

Abstract translation: 本发明提供由通式[I]表示的化合物[其中X代表氢或卤素; B代表卤素，氰基或任选氟取代的低级烷基; D代表3-10元脂族含氮杂环基; R 3，R 4和R 5可以相同或不同，各自代表氢，任选具有取代基的低级烷基， 等等; a为0或1]。 这些化合物对伤害感受肽受体表现出高亲和力，并且由此抑制伤害感受肽的作用，并且可用作镇痛剂，抗胆碱药物，用于改善脑功能，治疗阿尔茨海默氏病和痴呆药物，以及用于精神分裂症，神经退行性疾病，抑郁症，糖尿病 尿崩症，多尿，低血压等。

公开(公告)号：US07050082B2

公开(公告)日：2006-05-23

申请号：US10347746

申请日：2003-01-22

Applicant: Mitsuo Suzuki ,  Naoki Miyatake ,  Taku Amada ,  Seizo Suzuki ,  Kazuyuki Shimada ,  Satoru Itoh

Inventor： Mitsuo Suzuki ,  Naoki Miyatake ,  Taku Amada ,  Seizo Suzuki ,  Kazuyuki Shimada ,  Satoru Itoh

IPC: B41J27/00 ,  G02F1/13

CPC classification number: G02B26/127 ,  B41J2/473

Abstract: An optical scanning characteristic control method is applied to an optical scanning system in which a beam is deflected, and the deflected beam is converged and directed toward a scanning surface, so that optical scanning of the scanning surface is performed by an optical spot formed thereon by the deflected beam. The method comprising the steps of a) disposing a beam deflection control device on the light path of the beam before it is incident on the scanning surface; and b) controlling a beam deflection amount of the beam deflecting device provide to an incident beam so as to control a scanning characteristic of the optical scanning.