公开(公告)号：US20080149535A1

公开(公告)日：2008-06-26

申请号：US12035785

申请日：2008-02-22

Applicant: Takeshi Naka ,  Osamu Tamura

Inventor： Takeshi Naka ,  Osamu Tamura

IPC: B03B9/00

CPC classification number: B07B7/083 ,  B02C23/10 ,  B07B7/0865 ,  G03G9/081 ,  G03G9/0815 ,  G03G9/0817 ,  G03G9/0825

Abstract: In a toner production process having at least a kneading step, a pulverization step and the step of simultaneously carrying out a surface modification step and a classification step to obtain toner particles, the surface modification and the classification are simultaneously carried out using a batch-wise surface modifying apparatus having at least a cylindrical main-body casing, a classifying rotor, a surface modifying means having a dispersing rotor and a liner. The positional relationship between the dispersing rotor and the liner is set in an appropriate specific state so that toner particles having a sharp particle size distribution with less fine powder and having a high sphericity can be obtained in a good efficiency.

Abstract translation: 在具有至少捏合步骤，粉碎步骤和同时进行表面改性步骤和分级步骤以获得调色剂颗粒的步骤的调色剂生产方法中，表面改性和分级同时使用分批式 具有至少一个圆柱形主体壳体，分级转子，具有分散转子和衬垫的表面改性装置的表面改性装置。 分散转子和衬垫之间的位置关系设定在适当的特定状态，从而可以以良好的效率获得具有较小细粉末且具有较高球形度的尖锐粒度分布的调色剂颗粒。

公开(公告)号：US07358024B2

公开(公告)日：2008-04-15

申请号：US11017948

申请日：2004-12-22

Applicant: Takeshi Naka ,  Osamu Tamura

Inventor： Takeshi Naka ,  Osamu Tamura

IPC: G03G5/00

CPC classification number: B07B7/083 ,  B02C23/10 ,  B07B7/0865 ,  G03G9/081 ,  G03G9/0815 ,  G03G9/0817 ,  G03G9/0825

Abstract: In a toner production process having at least a kneading step, a pulverization step and the step of simultaneously carrying out a surface modification step and a classification step to obtain toner particles, the surface modification and the classification are simultaneously carried out using a batch-wise surface modifying apparatus having at least a cylindrical main-body casing, a classifying rotor, a surface modifying means having a dispersing rotor and a liner. The positional relationship between the dispersing rotor and the liner is set in an appropriate specific state so that toner particles having a sharp particle size distribution with less fine powder and having a high sphericity can be obtained in a good efficiency.

Abstract translation: 在具有至少捏合步骤，粉碎步骤和同时进行表面改性步骤和分级步骤以获得调色剂颗粒的步骤的调色剂生产方法中，表面改性和分级同时使用分批式 具有至少一个圆柱形主体壳体，分级转子，具有分散转子和衬垫的表面改性装置的表面改性装置。 分散转子和衬垫之间的位置关系设定在适当的特定状态，从而可以以良好的效率获得具有较小细粉末且具有较高球形度的尖锐粒度分布的调色剂颗粒。

公开(公告)号：US20110089085A1

公开(公告)日：2011-04-21

申请号：US12978030

申请日：2010-12-23

Applicant: Osamu Tamura ,  Takeshi Naka ,  Yutaka Ishida

Inventor： Osamu Tamura ,  Takeshi Naka ,  Yutaka Ishida

IPC: B07B13/00

CPC classification number: G03G9/081 ,  G03G9/0815 ,  G03G9/0817

Abstract: A process for producing a toner with which toner particles can be highly conglobated, a toner that hardly causes fogging in an image, and an yield of toner is increased is provided.A process for producing a toner of the present invention comprises the step of simultaneously performing a surface modification and classification of particles by using a batch-wise surface modification apparatus, in which when a straight line extending from a central position S1 of a loading pipe in a direction of loading a raw material is denoted by L1 and a straight line extending from a central position O1 of the fine powder discharging pipe in a direction of discharging fine powder and ultra-fine powder is denoted by L2, an angle θ formed between the lines L1 and L2 is in a range of 210 to 330° with reference to the direction in which a classification rotor rotates.

Abstract translation: 提供了一种用于生产调色剂颗粒可以高度结合的调色剂的方法，几乎​​不引起图像中的起雾的调色剂和调色剂的收率。 本发明的调色剂的制造方法包括：通过使用分批式表面改性装置同时进行表面改性和分级的步骤，其中当从装载管的中心位置S1延伸的直线 原材料的加载方向由L1表示，从细粉末排出管的中心位置O1沿排出细粉末和超细粉末的方向延伸的直线由L2表示，角度表示; 线L1和L2之间形成的距离相对于分级转子旋转的方向为210〜330°。

公开(公告)号：US07506830B2

公开(公告)日：2009-03-24

申请号：US12035785

申请日：2008-02-22

Applicant: Takeshi Naka ,  Osamu Tamura

Inventor： Takeshi Naka ,  Osamu Tamura

IPC: B02C23/08 ,  B02C13/09

CPC classification number: B07B7/083 ,  B02C23/10 ,  B07B7/0865 ,  G03G9/081 ,  G03G9/0815 ,  G03G9/0817 ,  G03G9/0825

Abstract: In a toner production process having at least a kneading step, a pulverization step and the step of simultaneously carrying out a surface modification step and a classification step to obtain toner particles, the surface modification and the classification are simultaneously carried out using a batch-wise surface modifying apparatus having at least a cylindrical main-body casing, a classifying rotor, a surface modifying means having a dispersing rotor and a liner. The positional relationship between the dispersing rotor and the liner is set in an appropriate specific state so that toner particles having a narrow particle size distribution with less fine powder and having a high sphericity can be obtained with a good efficiency.

Abstract translation: 在具有至少捏合步骤，粉碎步骤和同时进行表面改性步骤和分级步骤以获得调色剂颗粒的步骤的调色剂生产方法中，表面改性和分级同时使用分批式 具有至少一个圆柱形主体壳体，分级转子，具有分散转子和衬垫的表面改性装置的表面改性装置。 分散转子和衬垫之间的位置关系被设定在适当的特定状态，从而能够以良好的效率获得具有较小细粉末并且具有较高球形度的粒度分布窄的调色剂颗粒。

公开(公告)号：US20050164115A1

公开(公告)日：2005-07-28

申请号：US10968094

申请日：2004-10-20

Applicant: Osamu Tamura ,  Takeshi Naka ,  Yutaka Ishida

Inventor： Osamu Tamura ,  Takeshi Naka ,  Yutaka Ishida

IPC: G03G5/00 ,  G03G9/00 ,  G03G9/08 ,  G03G9/087

CPC classification number: G03G9/081 ,  G03G9/0815 ,  G03G9/0817

Abstract: A process for producing a toner with which toner particles can be highly conglobated, a toner that hardly causes fogging in an image, and an yield of toner is increased is provided. A process for producing a toner of the present invention comprises the step of simultaneously performing a surface modification and classification of particles by using a batch-wise surface modification apparatus, in which when a straight line extending from a central position S1 of a loading pipe in a direction of loading a raw material is denoted by L1 and a straight line extending from a central position O1 of the fine powder discharging pipe in a direction of discharging fine powder and ultra-fine powder is denoted by L2, an angle θ formed between the lines L1 and L2 is in a range of 210 to 330° with reference to the direction in which a classification rotor rotates.

Abstract translation: 提供了一种用于生产调色剂颗粒可以高度结合的调色剂的方法，几乎​​不引起图像中的起雾的调色剂和调色剂的收率。 本发明的调色剂的制造方法包括：通过使用分批式表面改性装置同时进行表面改性和分级的步骤，其中当从装载管的中心位置S1延伸的直线 在原料的加载方向上用L 1表示，从细粉末排出管的中心位置O 1向排出细粉末和超细粉末的方向延伸的直线由L 2表示，角度 相对于分级转子旋转的方向，在线L1和L2之间形成的θ在210〜330°的范围内。

公开(公告)号：US20050139701A1

公开(公告)日：2005-06-30

申请号：US11017948

申请日：2004-12-22

Applicant: Takeshi Naka ,  Osamu Tamura

Inventor： Takeshi Naka ,  Osamu Tamura

IPC: B02C23/10 ,  B07B7/083 ,  B07B7/086 ,  G03G9/08 ,  B02C19/12

CPC classification number: B07B7/083 ,  B02C23/10 ,  B07B7/0865 ,  G03G9/081 ,  G03G9/0815 ,  G03G9/0817 ,  G03G9/0825

Abstract: In a toner production process having at least a kneading step, a pulverization step and the step of simultaneously carrying out a surface modification step and a classification step to obtain toner particles, the surface modification and the classification are simultaneously carried out using a batch-wise surface modifying apparatus having at least a cylindrical main-body casing, a classifying rotor, a surface modifying means having a dispersing rotor and a liner. The positional relationship between the dispersing rotor and the liner is set in an appropriate specific state so that toner particles having a sharp particle size distribution with less fine powder and having a high sphericity can be obtained in a good efficiency.

Abstract translation: 在具有至少捏合步骤，粉碎步骤和同时进行表面改性步骤和分级步骤以获得调色剂颗粒的步骤的调色剂生产方法中，表面改性和分级同时使用分批式 具有至少一个圆柱形主体壳体，分级转子，具有分散转子和衬垫的表面改性装置的表面改性装置。 分散转子和衬垫之间的位置关系设定在适当的特定状态，从而可以以良好的效率获得具有较小细粉末且具有较高球形度的尖锐粒度分布的调色剂颗粒。

公开(公告)号：US08311333B2

公开(公告)日：2012-11-13

申请号：US12361641

申请日：2009-01-29

Applicant: Toshihiro Mori ,  Osamu Tamura

Inventor： Toshihiro Mori ,  Osamu Tamura

IPC: G06K9/36 ,  G06K9/42

CPC classification number: H04N1/40062 ,  G06K9/00456 ,  H04N1/642

Abstract: First, a binary image is generated by binarizing an image. Next, a binary pixel ratio, that is a ratio of a binary pixel quantity that is a quantity of dotted pixels included in a specific area of the binary image to a total quantity of pixels included in the specific area of the binary image, is found. Then, a thin-line image is generated by performing a line-thinning process on the specific area. After that, a thin-line pixel ratio that is a ratio of the quantity of dotted pixels included in the generated thin-line image to the binary pixel quantity is found, and the specific area is determined to be a map area or a photograph area based on the calculated binary pixel ratio and the calculated thin-line pixel ratio.

Abstract translation: 首先，通过二值化图像生成二进制图像。 接下来，找到作为二进制图像的特定区域中包含的虚线像素量的二进制像素量与包含在二值图像的特定区域中的像素总量的比率的二进制像素比 。 然后，通过对特定区域进行线间隔处理来生成细线图像。 之后，找到作为生成的细线图像中包含的点状像素的量与二进制像素量的比例的细线像素比，并且确定特定区域为地图区域或照片区域 基于计算的二进制像素比和计算的细线像素比。

公开(公告)号：US08304991B2

公开(公告)日：2012-11-06

申请号：US12971404

申请日：2010-12-17

Applicant: Koji Okawa ,  Osamu Tamura

Inventor： Koji Okawa ,  Osamu Tamura

IPC: H01J1/63 ,  C08L83/07

CPC classification number: H05B33/04 ,  C08G77/12 ,  C08G77/20 ,  C08L83/04 ,  H01L51/5246 ,  H01L51/5253

Abstract: This organic electroluminescent element sealing composition contains an addition reaction curing type silicone composition which is liquid at normal temperature and has a curing temperature of 100 degrees C. or below and a moisture content of 400 ppm or less. The addition reaction curing type silicone composition contains (A) polyorganosiloxane having an average of 0.2 to 5 alkenyl groups bonded to silicon atoms in one molecule, (B) polyorganohydrogensiloxane having at least two or more hydrogen atoms bonded to silicon atoms in one molecule, and (C) a platinum-based catalyst. The organic electroluminescent element sealing composition can prevent deterioration of the organic electroluminescent element and can provide the organic light-emitting device having a good light-emitting property for a long period.

Abstract translation: 该有机电致发光元件密封组合物含有在常温下为液态，固化温度为100℃以下，水分为400ppm以下的加成反应固化型硅酮组合物。 加成反应固化型硅氧烷组合物含有（A）在1分子中平均具有与硅原子键合的2〜5个烯基的聚有机硅氧烷，（B）在1分子中具有与硅原子键合的氢原子中的至少2个以上的聚有机氢硅氧烷，以及 （C）铂系催化剂。 有机电致发光元件密封组合物可以防止有机电致发光元件的劣化，并且可以长时间地提供具有良好的发光特性的有机发光器件。

公开(公告)号：US20120011920A1

公开(公告)日：2012-01-19

申请号：US13200350

申请日：2011-09-23

Applicant: Yasutoshi Iguchi ,  Hideaki Sugano ,  Osamu Tamura

Inventor： Yasutoshi Iguchi ,  Hideaki Sugano ,  Osamu Tamura

IPC: G01N30/72

CPC classification number: C10L1/08

Abstract: The invention provides a gas oil composition wherein the molar ratio of isoparaffins with carbon number of m and two or more branches to isoparaffins with carbon number of m and one branch within the range of C10-21 is 0.05-3.5, wherein m is an integer of 10-21, and the molar ratio of isoparaffins with carbon number of n and two or more branches to isoparaffins with carbon number of n and one branch within the range of C22-25 is 0.1-10.0, wherein n is an integer of 22-25. The invention also provides a gas oil composition wherein the molar ratio of isoparaffins with carbon number of m and two or more branches to isoparaffins with carbon number of m and one branch within the range of C10-23 is 0.05-4.0, wherein m is an integer of 10-23, and the distillate volume at a distillation temperature of 250° C. (E250) is 15-65%.

Abstract translation: 本发明提供一种瓦斯油组合物，其中碳原子数为m和两个或多个分支的异链烷烃与碳数为m的异链烷烃与一个分支在C10-21的范围内的摩尔比为0.05-3.5，其中m为整数 为10-21，碳原子数n和两个或多个分支的异链烷烃与碳数为n的异链烷烃和C22-25的一个分支的摩尔比为0.1-10.0，其中n为22的整数 -25。 本发明还提供了一种瓦斯油组合物，其中碳数为m和两个或更多个分支的异链烷烃与碳数为m和一个分支在C10-23范围内的异链烷烃的摩尔比为0.05-4.0，其中m为 蒸馏温度为250℃的馏出物体积（E250）为15-65％。

公开(公告)号：US07708459B2

公开(公告)日：2010-05-04

申请号：US11712398

申请日：2007-03-01

Applicant: Tohru Nakano ,  Osamu Tamura ,  Hirohisa Sakurai

Inventor： Tohru Nakano ,  Osamu Tamura ,  Hirohisa Sakurai

IPC: G01K15/00 ,  G01N25/00 ,  G01K17/00

CPC classification number: G01K15/005 ,  G01K2203/00

Abstract: A temperature varying low-temperature comparative calibration including a vacuum jacket, a comparative calibration block in the vacuum jacket which is formed of a material of a high heat conductivity and which is maintained at a fixed temperature by a refrigerator or a heater, a reference thermometer housing portion in the comparative calibration block in which a reference thermometer is mounted, and an insertion hole in the comparative calibration block through which a calibration target thermometer is inserted from outside the vacuum jacket via an introduction pipe. The introduction pipe is filled with heat exchange gas.

Abstract translation: 一种温度变化的低温比较校准，包括真空夹套，真空夹套中的比较校准块，其由导热性高的材料形成，并通过冰箱或加热器保持在固定温度;参考温度计 其中安装有参考温度计的比较校准块中的容纳部分和比较校准块中的插入孔，校准目标温度计经由导入管从真空夹套的外部插入其中。 导入管充满热交换气体。