公开(公告)号：US20120231163A1

公开(公告)日：2012-09-13

申请号：US13378128

申请日：2010-06-17

Applicant: Kenji Hata ,  Satoshi Yasuda ,  Don N. Futaba ,  Motoo Yumura

Inventor： Kenji Hata ,  Satoshi Yasuda ,  Don N. Futaba ,  Motoo Yumura

IPC: C23C16/455 ,  C23C16/26 ,  B82Y40/00

CPC classification number: C01B31/0226 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/16

Abstract: A method and an apparatus for efficiently producing a high-purity CNT assembly of a high specific surface area are provided in which a feedstock gas is contacted to a catalyst in an optimum form for CNT growth.A carbon nanotube producing apparatus of the present invention includes: a synthesis furnace; a gas supply pipe and a gas exhaust pipe in communication with the synthesis furnace; heating means that heats inside of the synthesis furnace to a predetermined temperature; and gas blowing means that blows a feedstock gas into the synthesis furnace after the feedstock gas is supplied through the gas supply pipe. The feedstock gas supplied through the gas supply pipe is supplied into a heating region of the synthesis furnace heated by the heating means, so as to produce a carbon nanotube from a surface of a catalyst layer provided on a base. The feedstock gas is evacuated through the gas exhaust pipe. The carbon nanotube producing apparatus further includes residence time adjusting means that allows the feedstock gas to contact the surface of the catalyst layer on the base in a substantially uniform amount after substantially the same residence time.

Abstract translation: 提供了一种用于有效地生产高比表面积的高纯度CNT组件的方法和设备，其中原料气体以最佳形式与催化剂接触以用于CNT生长。 本发明的碳纳米管制造装置包括：合成炉; 与合成炉连通的气体供给管和排气管; 加热是指将合成炉内部加热至预定温度; 气体吹送装置，在通过气体供给管供给原料气体之后，将原料气体吹入合成炉。 通过气体供给管供给的原料气体被供给到由加热装置加热的合成炉的加热区域，以从设置在基材上的催化剂层的表面制造碳纳米管。 原料气体通过排气管排出。 碳纳米管制造装置还包括停留时间调节装置，其允许原料气体在基本上相同的停留时间之后以基本均匀的量与基底上的催化剂层的表面接触。

公开(公告)号：US07957043B2

公开(公告)日：2011-06-07

申请号：US11525957

申请日：2006-09-25

Applicant: Osamu Morizono ,  Satoshi Yasuda ,  Yoshiyuki Nishigaito

Inventor： Osamu Morizono ,  Satoshi Yasuda ,  Yoshiyuki Nishigaito

IPC: G02B26/00 ,  G06K15/10 ,  H04N1/46

CPC classification number: B41J2/465

Abstract: In an image recording apparatus, shift times for shifting switching timings of light modulator elements are obtained so that rise times (U1) after input of output start signals to driving elements connected to respective light modulator elements of a spatial light modulator and fall times (D1) after input of output stop signals become a constant target rise time (U2) and a constant target fall time (D2). This makes it possible to suppress unevenness of the rise times and the fall times after correction of light amounts even if light modulator elements where the rise times and the fall times change by correction of light amounts are used and consequently, an image can be appropriately recorded without a complicate apparatus.

Abstract translation: 在图像记录装置中，获得用于移动光调制元件的切换定时的移位时间，使得输出开始信号之后的上升时间（U1）与连接到空间光调制器的各个调光元件的驱动元件和下降时间（D1 ）输入输出停止信号后，变为恒定目标上升时间（U2）和恒定目标下降时间（D2）。 这使得即使使用通过光量校正改变上升时间和下降时间的光调制元件，也可以抑制光量校正后的上升时间和下降时间的不均匀性，因此可以适当地记录图像 没有复杂的装置。

公开(公告)号：US07692415B2

公开(公告)日：2010-04-06

申请号：US11797077

申请日：2007-04-30

Applicant: Satoshi Yasuda ,  Masatoshi Takeda ,  Hitoshi Teramoto

Inventor： Satoshi Yasuda ,  Masatoshi Takeda ,  Hitoshi Teramoto

IPC: G05F1/70

CPC classification number: G05F1/70 ,  H02J3/1864 ,  Y02E40/12

Abstract: A reactive power control apparatus for an AC power system includes a reactive power compensation device, a compensation capacitor device and a compensation capacitor control device. The compensation capacitor control device includes a detection voltage output circuit which outputs a bus detection voltage after the clearing of a voltage drop abnormality, corresponding to the AC voltage of a system bus after the voltage drop abnormality that occurred in the AC power system has been cleared, and a compensation capacitor control circuit which controls the connection status of a compensation capacitor with respect to the system bus. The compensation capacitor control circuit controls the connection status of the compensation capacitor with respect to the system bus, on the basis of the voltage level of the bus detection voltage after the clearing of the voltage drop abnormality.

Abstract translation: 一种用于交流电力系统的无功功率控制装置，包括无功补偿装置，补偿电容器装置和补偿电容器控制装置。 补偿电容器控制装置包括检测电压输出电路，其在清除电压降异常之后输出对应于在AC电力系统中发生的电压降异常之后的系统总线的AC电压已经被清除的总线检测电压 以及补偿电容器控制电路，其控制补偿电容器相对于系统总线的连接状态。 补偿电容器控制电路根据总线检测电压在清除电压降异常之后的电压电平来控制补偿电容器相对于系统总线的连接状态。

公开(公告)号：US20080259301A1

公开(公告)日：2008-10-23

申请号：US12081399

申请日：2008-04-15

Applicant: Satoshi Yasuda ,  Mamoru Fujimoto ,  Hiroshi Iwasa

Inventor： Satoshi Yasuda ,  Mamoru Fujimoto ,  Hiroshi Iwasa

IPC: G03B27/42

CPC classification number: G03B27/42

Abstract: A CTP system is provided, which allows its continuous use even if some of laser diodes located at dispersed sites are in a non-light emitting state due to breakage or the like. In the case where some channels are in the non-light emitting state, channel-by-channel exposure data is generated to describe the way that exposure should be performed by use of specific light-emitting channels that are determined by the locations of non-light emitting channels, while an exposure head is moved also through (a) complementary interval(s) before and/or after a standard interval, the standard interval being the interval the exposure head is moved through in normal mode. Then, the transport unit moves the exposure head through the standard interval and through the complementary interval(s), during which period the exposure controller causes the specific light-emitting channels to emit exposure light according to the channel-by-channel exposure data, thereby forming an exposed area.

Abstract translation: 提供了一种CTP系统，即使位于分散位置的一些激光二极管由于断裂等而处于非发光状态，也能够连续使用。 在一些通道处于非发光状态的情况下，产生逐通道曝光数据，以描述通过使用由非发光状态的位置确定的特定发光通道来执行曝光的方式， 发光通道，而曝光头也通过（a）在标准间隔之前和/或之后的互补间隔移动，标准间隔是在正常模式下曝光头移动的间隔。 然后，传送单元将曝光头移动通过标准间隔并通过互补间隔，在此期间，曝光控制器使特定发光通道根据逐个通道曝光数据发射曝光光， 从而形成暴露区域。

公开(公告)号：US06519430B2

公开(公告)日：2003-02-11

申请号：US09888402

申请日：2001-06-26

Applicant: Akira Higeta ,  Satoshi Yasuda ,  Yoshiyuki Kakumi

Inventor： Akira Higeta ,  Satoshi Yasuda ,  Yoshiyuki Kakumi

IPC: G03G1500

CPC classification number: G03G21/181 ,  G03G21/1825 ,  G03G2215/00987

Abstract: A remanufacturing method for a process cartridge detachably mountable to a main assembly of an electrophotographic image forming apparatus includes the steps of separating first and second units of the cartridge, dismounting from the second unit a developing blade mounted to the second unit, filling developer into a developer accommodating portion of the second unit through a developer supply opening for supplying a developer roller of the second unit from the developer accommodating portion, mounting the dismounted developing blade to the second unit with a facing orientation opposite from a facing orientation before the developing blade dismounting step, and coupling the first and second units.

Abstract translation: 用于可拆卸地安装到电子照相成像设备的主组件的处理盒的再制造方法包括以下步骤：分离盒的第一和第二单元，从第二单元拆下安装到第二单元的显影刀片，将显影剂填充到 显影剂容纳部分通过用于从显影剂容纳部分提供第二单元的显影辊的显影剂供应开口，在显影刮板拆卸之前，将拆卸的显影刮刀以相对于朝向的方向安装到第二单元 步骤，并联接第一和第二单元。

公开(公告)号：US4987851A

公开(公告)日：1991-01-29

申请号：US292314

申请日：1988-12-30

Applicant: Satoshi Yasuda ,  Shigeru Wakayama ,  Yoshiaki Tsukumo ,  Takashi Haraguchi ,  Syun Egusa

Inventor： Satoshi Yasuda ,  Shigeru Wakayama ,  Yoshiaki Tsukumo ,  Takashi Haraguchi ,  Syun Egusa

IPC: B05D1/20

CPC classification number: B82Y30/00 ,  B05D1/206 ,  B82Y40/00

Abstract: An organic film forming apparatus includes a trough storing water therein and a work drive device for moving a work with respect to the trough. The surface of the water is partitioned by a rod into a first developing region on which a monomolecular film is developed and a second developing region on which no monomolecular film is developed. The work is moved by the device through the developed monomolecular film so as to adhere the film on the surface of the work. The device has a holding mechanism which has a holding portion engaged with the work, and which holds the work so that when the work passes through the developed monomolecular film, the holding portion is away from the film or passes through the film after almost the entire work passes through the film.

公开(公告)号：US4966829A

公开(公告)日：1990-10-30

申请号：US275599

申请日：1988-11-23

Applicant: Satoshi Yasuda ,  Kiichiro Sakashita ,  Yasuo Mitsuhashi ,  Seiichi Takagi ,  Shuichi Aita ,  Yoshinobu Nagai ,  Toshiaki Nakahara

Inventor： Satoshi Yasuda ,  Kiichiro Sakashita ,  Yasuo Mitsuhashi ,  Seiichi Takagi ,  Shuichi Aita ,  Yoshinobu Nagai ,  Toshiaki Nakahara

IPC: G03G5/07 ,  G03G9/08 ,  G03G9/087

CPC classification number: G03G9/08711 ,  G03G9/087 ,  G03G9/08708 ,  G03G9/08786 ,  G03G9/08788 ,  Y10S430/105

Abstract: A toner for developing electrostatic latent images with a good combination of fixability, anti-offset characteristic, anti-sticking characteristic and pulverizability is provided as a composition comprising a colorant or magnetic material and a binder resin. The binder resin has 0.1 to 60 wt. % of a chloroform-insoluble or a THF (tetrahydrofuran)-insoluble and a THF-soluble, the THF-soluble providing a molecular weight distribution in the chromatogram of GPC (gel permeation chromatography) thereof such that there are a main peak in the molecular weight range of 1,000 to 25,000 and a sub-peak or shoulder in the molecular weight range of 2,000 to 150,000. The binder resin may suitably be obtained through two polymerization steps including a solution polymerization step and a suspension polymerization step.

Abstract translation: 作为包含着色剂或磁性材料和粘合剂树脂的组合物，提供了具有定影性，抗偏移特性，抗粘附特性和可粉碎性的良好组合的用于显影静电潜像的调色剂。 粘合剂树脂为0.1〜60wt。 ％的不溶于氯仿或THF（四氢呋喃） - 不溶性和可溶于THF的THF可溶性在GPC（凝胶渗透色谱法）的色谱图中提供分子量分布，使得分子中存在主峰 重量范围为1,000至25,000，亚峰或肩峰的分子量范围为2,000至150,000。 粘合剂树脂可以通过包括溶液聚合步骤和悬浮聚合步骤的两个聚合步骤合适地获得。

公开(公告)号：US4689970A

公开(公告)日：1987-09-01

申请号：US878576

申请日：1986-06-26

Applicant: Hirotsugu Ohguma ,  Mitsuo Harada ,  Hideaki Saura ,  Satoshi Yasuda

Inventor： Hirotsugu Ohguma ,  Mitsuo Harada ,  Hideaki Saura ,  Satoshi Yasuda

IPC: F17C13/00 ,  F25D19/00 ,  H01F6/04 ,  F25B19/00

CPC classification number: H01F6/04 ,  F25D19/006

Abstract: A cryogenic apparatus comprises a refrigerant vessel containing a superconducting magnet and a refrigerant, a vacuum casing containing the vessel, a radiation shield disposed between the vessel and the casing such as to enclose the vessel, a refrigerator for cooling at least one of the shield and the vessel, and a thermal conductive coupling disposed between the refrigerator and at the least one of the shield and the vessel, and turning on and off the heat transfer therebetween. The coupling includes, a first member having high thermal conductivity and connected to the refrigerator, and a second member having high thermal conductivity and connected to at the least one of the shield and the vessel, satisfactory heat transfer being obtained between the first and second members by supplying a heat conductive medium in the form of a fluid between the first and second members, only slight heat transfer caused by only a heat radiation being obtained between the first and second members by evacuating between the first and second members.

Abstract translation: 低温装置包括含有超导磁体和制冷剂的制冷剂容器，容纳容器的真空壳体，设置在容器和壳体之间以便包围容器的辐射屏蔽件，用于冷却至少一个护罩和 所述容器和布置在所述冰箱和所述屏蔽件和所述容器中的至少一个之间的导热耦合器，以及其间的传热。 联接器包括：具有高导热性并连接到冰箱的第一构件和具有高导热性并连接到屏蔽和容器中的至少一个的第二构件，在第一和第二构件之间获得令人满意的热传递 通过在第一和第二构件之间提供流体形式的导热介质，仅在第一和第二构件之间通过在第一和第二构件之间排空而仅在第一和第二构件之间获得仅由热辐射引起的轻微的热传递。

公开(公告)号：US08012884B2

公开(公告)日：2011-09-06

申请号：US12493818

申请日：2009-06-29

Applicant: Satoshi Yasuda ,  Shin-ichi Imai

Inventor： Satoshi Yasuda ,  Shin-ichi Imai

IPC: H01L21/31 ,  C23C16/00

CPC classification number: C23C16/46 ,  C23C16/52

Abstract: A predicted film formation rate value is computed based on a film formation rate prediction formula obtained in advance and apparatus parameters obtained during a previously-performed film formation process. A processing time required for an amount of film formed on a wafer to reach a predetermined target film thickness is computed based on the computed predicted film formation rate value and the target film thickness. Then, according to the computed processing time, a film-formation process is performed on wafers. In addition, it is determined whether the computed predicted film formation rate value is within a predetermined range, and only when it is determined to be within the predetermined range, the film formation process may be performed.

Abstract translation: 基于预先获得的成膜速率预测公式和在先前执行的成膜处理中获得的装置参数来计算预测成膜速率值。 基于所计算的预测成膜速率值和目标膜厚度，计算在晶片上形成的膜达到预定目标膜厚度所需的处理时间。 然后，根据计算出的处理时间，对晶片进行成膜处理。 此外，确定所计算的预测成膜速率值是否在预定范围内，并且只有当确定在预定范围内时，可以执行成膜处理。

公开(公告)号：US20100062157A1

公开(公告)日：2010-03-11

申请号：US12525719

申请日：2008-02-04

Applicant: Kenji Hata ,  Satoshi Yasuda ,  Motoo Yumura

Inventor： Kenji Hata ,  Satoshi Yasuda ,  Motoo Yumura

IPC: C23C16/455 ,  C23C16/00 ,  C23C16/22

CPC classification number: B82Y40/00 ,  B82Y30/00 ,  C01B32/162 ,  C01B2202/08 ,  C23C16/0281 ,  C23C16/26 ,  C23C16/45565

Abstract: An apparatus (CVD apparatus (1)) having a reaction chamber (3) for accommodating a substrate (2) formed with a metal catalyst film and means (gas supply pipes (5, 6)) for supplying a feedstock gas (9) and a catalyst activating material (10) into the reaction chamber (3) for manufacturing CNTs aligned in a direction perpendicular to the catalyst film surface (2a) of the substrate (2), wherein the means for supplying the feedstock gas (9) and the catalyst activating material (10) have a plurality of ejection holes placed at positions facing the catalyst film surface (2a) of the substrate (2), and the ejecting direction of the ejection holes is adjusted to the direction of alignment of CNTs grown from the metal catalyst film. This can provide a manufacturing technology for CNTs capable of mass-producing aligned CNTs at lower cost.

Abstract translation: 具有用于容纳形成有金属催化剂膜的基板（2）的反应室（3）和用于供给原料气体（9）的装置（气体供给管（5,6））的装置（CVD装置（1））和 催化剂活化材料（10）进入反应室（3），用于制造沿着与基板（2）的催化剂膜表面（2a）垂直的方向排列的CNT，其中用于供应原料气体（9）和 催化剂活化材料（10）在基板（2）的面向催化剂膜表面（2a）的位置处具有多个喷射孔，并且喷射孔的喷射方向被调整为从 金属催化剂膜。 这可以提供能够以更低成本批量生产对准的CNT的CNT的制造技术。