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    • 131. 发明授权
    • Energy beam processing method and processing apparatus therefor
    • 能量束处理方法及其处理装置
    • US06346687B1
    • 2002-02-12
    • US09252201
    • 1999-02-18
    • Makoto KinoshitaTakeshi Kobayashi
    • Makoto KinoshitaTakeshi Kobayashi
    • B23K2600
    • B23K15/0013B23K26/08B23K26/082
    • An energy beam method and apparatus for processing a workpiece is accomplished by making the energy density per unit time and unit area of the energy beam proportional to the traveling velocity of the workpiece. This is accomplished by adjusting the frequency, irradiation power, or duty cycle of the energy beam. The travel velocity of the workpiece is measured by using a linear scale to generate pulse signals, calculating a traveling velocity based on the pulse signals and generating a pulse signal, dividing the pulse signals output by the calculation step, and generating a trigger signal in response to the pulse signals created by the dividing step to drive an energy beam irradiation device (such as a laser generator) to output the energy beam.
    • 通过使能量束的每单位时间的能量密度和能量束的单位面积与工件的行进速度成比例来实现用于处理工件的能量束方法和装置。 这是通过调整能量束的频率,照射功率或占空比来实现的。 通过使用线性标尺来测量工件的行进速度以产生脉冲信号,基于脉冲信号计算行进速度并产生脉冲信号,除以由计算步骤输出的脉冲信号,并产生响应的触发信号 涉及由分割步骤产生的脉冲信号,以驱动能量束照射装置(例如激光发生器)以输出能量束。
    • 132. 发明授权
    • Projection lens
    • 投影镜头
    • US6144499A
    • 2000-11-07
    • US344503
    • 1999-06-25
    • Akihiro YokotaTakeshi Kobayashi
    • Akihiro YokotaTakeshi Kobayashi
    • G02B9/60G02B13/16G02B13/18G02B13/24G02B3/00
    • G02B13/18G02B13/16
    • The present invention relates to a projection lens including: a power lens unit; one or more image-side lens units, provided on the image side with respect to the power lens, for correcting an aberration; and one or more opposite-image-side lens units, provided on the side opposite to the image side with respect to the power lens, for correcting an aberration, which projection lens has the following features. That is, the power lens unit includes a lens element made of a glass material having an Abbe number falling within a range from 50 to 75; the one or more image-side lens units include a lens element made of a plastic material having an Abbe number falling within a range from 20 to 35, and a lens element made of a plastic material having an Abbe number falling within a range from 50 to 60; and the one or more opposite-image-side lens units include a lens element made of a plastic material having an Abbe number falling within a range from 20 to 35, and a lens element made of a plastic material having an Abbe number falling within a range from 50 to 60.
    • 本发明涉及一种投影透镜,包括:功率透镜单元; 设置在相对于功率透镜的像侧的一个或多个图像侧透镜单元,用于校正像差; 以及相对于功率透镜设置在与像侧相反的一侧的一个或多个相对图像侧透镜单元,用于校正像差,该投影透镜具有以下特征。 也就是说,功率透镜单元包括由阿贝数落在50至75的范围内的由玻璃材料制成的透镜元件; 所述一个或多个图像侧透镜单元包括由阿贝数落在20至35的范围内的由塑料材料制成的透镜元件和由阿贝数落在50°的范围内的塑料材料制成的透镜元件 至60岁 并且一个或多个相对图像侧透镜单元包括由阿贝数落在20至35的范围内的由塑料材料制成的透镜元件,以及由具有阿贝数落在其中的阿贝数的塑料材料制成的透镜元件 范围从50到60。
    • 133. 发明授权
    • Terminal device with detector
    • 带检测器的终端设备
    • US6044256A
    • 2000-03-28
    • US774206
    • 1996-12-27
    • Takeshi Kobayashi
    • Takeshi Kobayashi
    • G01V8/14G01J1/02G08B13/184H03K17/78H04B10/035H04B10/079H04B10/11H04B10/112H04B10/524H04M1/737H04M11/04H04W88/02H04M11/00
    • G08B13/184H04M1/737H04M11/04
    • A terminal device having an infrared optical communication circuit with improved efficiency in use of the infrared optical communication circuit and the terminal device itself. In a pocket telephone T as a terminal device, an infrared optical communication circuit includes a light emitting section for emitting infrared rays and a photo detector section for detecting the infrared rays. A controller compares the infrared rays emitted from the light emitting section with the infrared rays which are reflected by a reflecting plate and are detected by the photo detector section and detects the information of infrared ray interruption on the basis of the comparison result. The information of the infrared ray interruption can be transmitted from a radio transmitter-receiver circuit to another terminal device, is output as voices from an audio transmitter-receiver, is displayed on a display, or is stored in a memory circuit, resulting in enabling to detect a movement of a person or substance and improving efficiency in use of the terminal device.
    • 一种具有红外光通信电路的终端设备,其具有提高红外光通信电路和终端设备本身的使用效率。 在口袋电话T作为终端装置中,红外光通信电路包括用于发射红外线的发光部分和用于检测红外线的光电检测器部分。 控制器将从发光部分发射的红外线与由反射板反射的红外线进行比较,并由光电检测器部分检测,并根据比较结果检测红外线信号。 红外线中断的信息可以从无线电发射机 - 接收机电路传输到另一个终端设备,作为来自音频发射机 - 接收机的语音输出,被显示在显示器上,或被存储在存储器电路中,从而使能 以检测人或物质的移动并提高终端设备的使用效率。
    • 135. 发明授权
    • Barrel cylinder for writing instrument
    • 用于书写工具的圆桶
    • US5961239A
    • 1999-10-05
    • US20131
    • 1998-02-06
    • Yuji NishiokaTakeshi Kobayashi
    • Yuji NishiokaTakeshi Kobayashi
    • B43K8/16B43K7/00
    • B43K8/16B43K7/005
    • In a barrel cylinder for a writing instrument, a writing element support hole portion or support projection is formed in a deep portion of a distal end port of the barrel cylinder where a writing element extends, the writing element support hole portion or support projection having an inner diameter slightly larger than the outer diameter of the writing element, and an enlarged port portion having an inner diameter larger than the writing element support hole portion or support projection and a gate mark appearing at a location of an inner surface thereof is formed at an inlet port portion of the distal end port of the barrel cylinder which is on the outer side of the writing element support hole portion or support projection.
    • 在用于书写工具的桶形筒中,书写元件支撑孔部分或支撑突起形成在笔筒的筒体的远端端口的深部,书写元件延伸,书写元件支撑孔部分或支撑突起具有 内径稍大于书写元件的外径,并且具有比书写元件支撑孔部分或支撑突起更大的内径的扩大的端口部分和出现在其内表面的位置处的栅极标记形成在 所述筒体的远端端口的入口部分位于所述书写元件支撑孔部分或所述支撑突起的外侧。