公开(公告)号：US07852521B2

公开(公告)日：2010-12-14

申请号：US11753152

申请日：2007-05-24

Applicant: Masaru Aoki

Inventor： Masaru Aoki

IPC: H04N1/04 ,  G06K9/40

CPC classification number: H04N1/00681 ,  H04N1/00716 ,  H04N1/00726 ,  H04N1/00734 ,  H04N1/0075 ,  H04N1/00755 ,  H04N1/00779 ,  H04N2201/0082

Abstract: The image forming apparatus includes: a reflection LED for emitting light to a surface of a recording medium on which an image is not yet fixed; a transmission LED for emitting light to the back face of the surface of a recording medium on which an image is not yet fixed; a CMOS area sensor for reading, as image, a light irradiation region of the recording medium by the reflection LED or the transmission LED to output the image; and a condition setting mechanism for providing a control by which, in accordance with an output value from the CMOS sensor, a fixing processing condition of a fixing apparatus is set. The image forming apparatus transforms a waveform of the output from the CMOS area sensor to a frequency component to determine, based on the feature quantity of the frequency component, the type of the recording medium.

Abstract translation: 图像形成装置包括：反射LED，用于将光发射到图像尚未固定的记录介质的表面; 用于将光发射到其上尚未固定图像的记录介质的表面的透射LED; 用于通过反射LED或透射LED读取作为图像的记录介质的光照射区域以输出图像的CMOS区域传感器; 以及条件设定机构，用于提供根据CMOS传感器的输出值设定定影装置的定影处理条件的控制。 图像形成装置将来自CMOS区域传感器的输出的波形变换为频率分量，以基于频率分量的特征量来确定记录介质的类型。

公开(公告)号：US20100227987A1

公开(公告)日：2010-09-09

申请号：US12672089

申请日：2008-05-16

Applicant: Masaaki Ito ,  Hideshi Uchino ,  Yoshiyuki Ishihama ,  Masaru Aoki ,  Masato Nakano ,  Fusaaki Katou ,  Kazuo Asuka

Inventor： Masaaki Ito ,  Hideshi Uchino ,  Yoshiyuki Ishihama ,  Masaru Aoki ,  Masato Nakano ,  Fusaaki Katou ,  Kazuo Asuka

IPC: C08F4/76 ,  C08F110/06 ,  C08F4/42

CPC classification number: C08F10/06 ,  C08F4/65904 ,  C08F4/65912 ,  C08F4/65916 ,  C08F110/06 ,  C08F210/06 ,  Y10S526/943 ,  C08F4/6492 ,  C08F4/65927 ,  C08F2500/15 ,  C08F2500/11 ,  C08F2500/14 ,  C08F2500/12 ,  C08F210/16

Abstract: A propylene-based polymer which is suitably applicable to foam molding, sheet molding, blow molding or the like, because of having good flow characteristics, high melt tension, high swell ratio and thus good molding workability.It is attained by a propylene-based polymer or the like characterized by satisfying the following requirements (i) to (vi).Requirement (i): MFR is 0.1 g/10 minutes to 100 g/10 minutes.Requirement (ii): Q value by GPC is 3.5 to 10.5.Requirement (iii): ratio of components with a molecular weight of equal to or higher than 2,000,000, in a molecular weight distribution curve obtained by GPC, is equal to or larger than 0.4% by weight and less than 10% by weight.Requirement (iv): components, which elute at a temperature of equal to or lower than 40° C., are equal to or less than 3.0% by weight, in temperature rising elution fractionation by ODCB.Requirement (v): isotactic triad fraction (mm) measured with 13C-NMR is equal to or higher than 95%.Requirement (vi): strain hardening degree (λmax), in measurement of extensional viscosity, is equal to or higher than 6.0.

Abstract translation: 由于具有良好的流动特性，高熔体张力，高膨胀比和良好的成型加工性，适用于发泡成型，片状成型，吹塑等的丙烯类聚合物。 通过满足以下要求（i）至（vi）的特征在于基于丙烯的聚合物等来实现。 要求（i）：MFR为0.1g / 10分钟至100g / 10分钟。 要求（ii）：GPC的Q值为3.5〜10.5。 要求（iii）：通过GPC获得的分子量分布曲线中分子量等于或高于2,000,000的组分的比例等于或大于0.4重量％且小于10重量％。 要求（iv）：在通过ODCB的升温洗脱分级中，在等于或低于40℃的温度下洗脱的组分等于或小于3.0重量％。 要求（v）：用13 C-NMR测定的全同立构三单元组分数（mm）等于或高于95％。 要求（vi）：在拉伸粘度测定中的应变硬化度（λmax）等于或高于6.0。

公开(公告)号：US07505703B2

公开(公告)日：2009-03-17

申请号：US11555708

申请日：2006-11-02

Applicant: Masanori Akita ,  Yoshitaka Kokubo ,  Tomoyuki Okada ,  Kengo Umeda ,  Masaru Aoki

Inventor： Masanori Akita ,  Yoshitaka Kokubo ,  Tomoyuki Okada ,  Kengo Umeda ,  Masaru Aoki

IPC: G03G15/00 ,  G03G15/20

CPC classification number: G03G15/5062 ,  G03G15/5029 ,  G03G15/6591 ,  G03G15/6594 ,  G03G2215/00447 ,  G03G2215/00751

Abstract: The invention is objected to perform fixing in an optimum fixing condition even with various kinds of recording materials or the like while improving usability by discriminating the kinds of recording materials. An image reading sensor 123 includes a reflective LED 301, a transmissive LED 303 disposed on the opposite side relative to a recording material 304 for detecting the transmitted amount of light, a CMOS area sensor 211, and an imaging lens 1113. The light from the reflective LED 301 as a light source is applied toward the surface of the recording material 304, and the reflected light from the recording material 304 is collected via the lens 303 and an image is formed on the CMOS area sensor 211. The LED 301 is disposed so as to apply LED light to the surface of the recording material 304 diagonally at a predetermined angle.

Abstract translation: 本发明的目的在于即使采用各种记录材料等也能在最佳定影条件下执行定影，同时通过区分记录材料的种类来提高可用性。 图像读取传感器123包括反射LED 301，相对于用于检测透射光量的记录材料304的相对侧的透射型LED 303，CMOS区域传感器211和成像透镜1113。 作为光源的反射型LED301朝向记录材料304的表面施加，并且经由透镜303收集来自记录材料304的反射光，并且在CMOS区域传感器211上形成图像。将LED301设置 以便以预定角度对角地将LED光施加到记录材料304的表面。

公开(公告)号：US20080225131A1

公开(公告)日：2008-09-18

申请号：US12043164

申请日：2008-03-06

Applicant: Masaru Aoki

Inventor： Masaru Aoki

IPC: H04N5/28

CPC classification number: H04N5/232 ,  G06T7/73

Abstract: An image analysis system includes a camera which captures an image of a monitor object, a mirror mounted at a predetermined angle within a visual field of the camera so as to form an image of the monitor object viewed from a direction different from a capturing direction of the camera, and a data processing apparatus which monitors a change in the monitor object by segmenting an image captured by the camera into an image on the mirror and an image except the image on the mirror and separately analyzing the image on the mirror and the image except the image on the mirror. An image analysis method is also disclosed.

Abstract translation: 图像分析系统包括拍摄监视对象的图像的照相机，以相机的视野内的预定角度安装的反射镜，以形成从与拍摄方向不同的方向观察的监视对象的图像 照相机和数据处理装置，其通过将照相机拍摄的图像分割成镜子上的图像和除了镜子上的图像之外的图像来分别监视镜像和图像上的图像来监视监视对象的变化 除了镜子上的图像。 还公开了一种图像分析方法。

公开(公告)号：US20070116452A1

公开(公告)日：2007-05-24

申请号：US11523311

申请日：2006-09-18

Applicant: Masaru Aoki ,  Seiichi Nagai

Inventor： Masaru Aoki ,  Seiichi Nagai

IPC: G03B3/00

CPC classification number: G02B27/0006 ,  G02B13/001 ,  G02B13/0035 ,  G02B13/18 ,  G03B3/02 ,  G03B17/02 ,  H04N5/2254

Abstract: A camera module includes a lens barrel holding a lens, and a main body holding the lens barrel, the lens barrel being capable of moving relative to the main body in the direction of the optical axis of the lens. The lens barrel has a protuberance on the underside thereof throughout the circumferential direction. The main body has a recess at a position corresponding to the protuberance of the lens barrel throughout the circumferential direction, the recess accommodating the protuberance. The protuberance is formed so as to have a height such that the protuberance is disposed in the recess both before and after the movement of the lens barrel relative to the main body in the direction of the optical axis of the lens.

Abstract translation: 相机模块包括保持透镜的镜筒和保持透镜镜筒的主体，透镜镜筒能够在透镜的光轴方向上相对于主体移动。 镜筒在整个圆周方向上在其下侧具有突起。 主体在与透镜筒的整个圆周方向的突起相对应的位置处具有凹部，凹部容纳突起。 凸起形成为具有使透镜筒相对于主体在透镜的光轴方向上移动之前和之后突起部分的高度。

公开(公告)号：US07149441B2

公开(公告)日：2006-12-12

申请号：US10950447

申请日：2004-09-28

Applicant: Masanori Akita ,  Yoshitaka Kokubo ,  Tomoyuki Okada ,  Kengo Umeda ,  Masaru Aoki

Inventor： Masanori Akita ,  Yoshitaka Kokubo ,  Tomoyuki Okada ,  Kengo Umeda ,  Masaru Aoki

IPC: G03G15/20

CPC classification number: G03G15/5062 ,  G03G15/5029 ,  G03G15/6591 ,  G03G15/6594 ,  G03G2215/00447 ,  G03G2215/00751

Abstract: The invention is objected to perform fixing in an optimum fixing condition even with various kinds of recording materials or the like while improving usability by discriminating the kinds of recording materials An image reading sensor 123 includes a reflective LED 301, a transmissive LED 303 disposed on the opposite side relative to a recording material 304 for detecting the transmitted amount of light, a CMOS area sensor 211, and an imaging lens 1113. The light from the reflective LED 301 as a light source is applied toward the surface of the recording material 304, and the reflected light from the recording material 304 is collected via the lens 303 and an image is formed on the CMOS area sensor 211. The LED 301 is disposed so as to apply LED light to the surface of the recording material 304 diagonally at a predetermined angle.

Abstract translation: 本发明的目的是通过识别记录材料的种类来提高可用性，即使使用各种记录材料等也能在最佳的定影条件下执行定影。图像读取传感器123包括反射型LED 301， 相对于用于检测透射光量的记录材料304的相对侧，CMOS区域传感器211和成像透镜1113。 来自作为光源的反射LED301的光被施加到记录材料304的表面，并且来自记录材料304的反射光经由透镜303收集，并且在CMOS区域传感器211上形成图像。 LED 301被设置成以预定角度对角地将LED光施加到记录材料304的表面。

公开(公告)号：US06218206B1

公开(公告)日：2001-04-17

申请号：US09153332

申请日：1998-09-15

Applicant: Kazunori Inoue ,  Masaru Aoki ,  Munehito Kumagai ,  Shigeaki Noumi ,  Tohru Takeguchi

Inventor： Kazunori Inoue ,  Masaru Aoki ,  Munehito Kumagai ,  Shigeaki Noumi ,  Tohru Takeguchi

IPC: H01L2100

CPC classification number: H01L29/66765

Abstract: To provide a method of producing a TFT array and a liquid crystal display apparatus in which a contact resistivity of a pixel electrode and a drain electrode through a contact hole in an interlayer insulating film can be not more than 10E4&OHgr; stably. A method of producing TFT of the present invention for a liquid crystal display apparatus includes the step of forming TFT, the step of forming an interlayer insulating film, in which the surface is made to be flat so that a level difference due to the TFT area is eliminated, on a transparent insulating substrate, the step of providing a contact hole on a drain electrode of the interlayer insulating film so as to forming a pixel electrode on the interlayer insulating film so that the pixel electrode is electrically connected with the drain electrode through the contact hole, and the step of after forming the contact hole on the interlayer insulating film, applying a surface treatment for cleaning the surface of the contact portion to the surface of the substrate including the surface of the drain electrode exposed from the contact hole.

Abstract translation: 为了提供一种制造TFT阵列的方法和液晶显示装置，其中通过层间绝缘膜中的接触孔的像素电极和漏极的接触电阻率可以稳定在10E4OMEGA以下。 本发明的液晶显示装置的TFT的制造方法包括以下步骤：形成TFT，形成层间绝缘膜的步骤，其中使所述表面平坦，使得由TFT区域引起的电平差 在透明绝缘基板上消除了在层间绝缘膜的漏电极上设置接触孔的步骤，以在层间绝缘膜上形成像素电极，使得像素电极通过与漏极电连接而电连接 所述接触孔以及在所述层间绝缘膜上形成所述接触孔之后的步骤，对所述接触部的表面进行表面处理，将所述接触部的表面进行表面处理，所述表面处理包括从所述接触孔露出的所述漏电极的表面。