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    • 2. 发明专利
    • Field emission device and its manufacturing method
    • 现场排放装置及其制造方法
    • JP2007128896A
    • 2007-05-24
    • JP2006300841
    • 2006-11-06
    • Kofukin Seimitsu Kogyo (Shenzhen) YugenkoshiQinghua Univツィンファ ユニバーシティ鴻富錦精密工業(深▲セン▼)有限公司
    • RYU HOJIANG KAILIRYO KAIFAN FENG-YAN
    • H01J9/02H01J1/304
    • H01J9/025B82Y10/00H01J1/304H01J2201/30469
    • PROBLEM TO BE SOLVED: To provide a field emission device in which an arrangement of a carbon nanotube is utilized and provide a manufacturing method of the above. SOLUTION: The manufacturing method of the field emission device in which a carbon nanotube arrangement is utilized includes a step in which a base plate on which a catalyst layer is formed is provided, a step in which a carbon nanotube arrangement having a second end part and a first end part on the above base plate is grown up, a step in which a cathode base on which an adhesive layer is formed is provided, a step in which the above first end part of the carbon nanotube arrangement is buried in the above adhesive layer, a step in which the above adhesive layer is solidified and processed, and a step in which the above base is removed and the second end part of the carbon nanotube arrangement is exposed. The field emission device utilizing a carbon nanotube arrangement made by the above manufacturing method is provided. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种其中利用碳纳米管的排列并提供上述的制造方法的场致发射器件。 解决方案:其中使用碳纳米管布置的场致发射器件的制造方法包括提供其上形成有催化剂层的基板的步骤,其中具有第二层的碳纳米管布置 生长上述基板上的端部和第一端部,设置形成有粘合剂层的阴极基体的步骤,将碳纳米管装置的上述第一端部埋入 上述粘合剂层,其中上述粘合剂层被固化和加工的步骤,以及去除上述碱和暴露碳纳米管装置的第二端部的步骤。 提供了利用由上述制造方法制成的碳纳米管布置的场致发射器件。 版权所有(C)2007,JPO&INPIT
    • 5. 发明专利
    • Vacuum gauge
    • 真空计
    • JP2009210587A
    • 2009-09-17
    • JP2009147814
    • 2009-06-22
    • Kofukin Seimitsu Kogyo (Shenzhen) YugenkoshiQinghua Univツィンファ ユニバーシティ鴻富錦精密工業(深▲セン▼)有限公司
    • RYU HOGI YOSEI RAIBAILIU LIANGKO SHOFUKUKAKU SAIRINCHIN HIKINFAN FENG-YAN
    • G01L21/32
    • G01N27/62
    • PROBLEM TO BE SOLVED: To provide a high-sensitivity vacuum gauge.
      SOLUTION: The present invention includes a cathode unit, an anode ring, a shielding electrode, an ion educing electrode, a reflector, and a collector. One end of the shielding electrode corresponds to the cathode unit and the other end thereof corresponds to the ion educing electrode. An ion educing hole is disposed in the center of the ion educing electrode. The reflector has a curved surface which surrounds one side of the shielding electrode close to the ion educing electrode. The collector is disposed at the bottom of the curved surface of the reflector and faces the ion educing hole. The anode ring is fixed inside the shielding electrode. The vacuum gauge combines merits of a saddle-field vacuum gauge and an ionization vacuum gauge, featuring a small volume, low energy consumption, simple configuration, and high sensitivity.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供高灵敏度真空计。 解决方案:本发明包括阴极单元,阳极环,屏蔽电极,离子培养电极,反射器和集电器。 屏蔽电极的一端对应于阴极单元,其另一端对应于离子培养电极。 离子教育孔设置在离子培养电极的中心。 反射器具有围绕离子培养电极的屏蔽电极的一侧的弯曲表面。 收集器设置在反射器的弯曲表面的底部并面向离子教育孔。 阳极环固定在屏蔽电极内。 真空计组合了鞍式真空计和电离真空计的优点,体积小,能耗低,配置简单,灵敏度高。 版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Standard calibrated leak
    • 标准校准泄漏
    • JP2006189425A
    • 2006-07-20
    • JP2005353744
    • 2005-12-07
    • Kofukin Seimitsu Kogyo (Shenzhen) YugenkoshiQinghua Univツィンファ ユニバーシティ鴻富錦精密工業(深▲セン▼)有限公司
    • TANG JIELIU LIANGRYU HOKO SHOFUKUDU BING-CHUKAKU SAIRINCHIN HIKINFAN FENG-YAN
    • G01M3/02
    • G01M3/007
    • PROBLEM TO BE SOLVED: To provide a standard calibrated leak capable of solving the problems of a conventional art wherein the leak amount of the standard calibrated leak must be measured via other device and the measuring range of the leak amount is narrow.
      SOLUTION: The standard calibrated leak comprises a thin film that cannot pass measuring gas, and a permeation hole of the predetermined number of divisions formed in the thin film. The permeation hole has a predetermined aperture, and its aperture is within a nano range. The standard calibrated leak previously determines the dimension and the number of divisions, and the aperture is within the nano range. Therefore, the leak amount is calculated, based on the theory of vacuum science technology, namely the leak amount can be determined without using the other device, and a micro leak amount can be measured.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供能够解决传统技术的问题的标准校准泄漏,其中标准校准泄漏的泄漏量必须通过其他装置测量,并且泄漏量的测量范围窄。 解决方案:标准校准的泄漏包括不能通过测量气体的薄膜,以及在薄膜中形成预定数量的分区的渗透孔。 渗透孔具有预定的孔径,其孔径在纳米范围内。 标准校准泄漏事先决定了尺寸和分割数,孔径在纳米范围内。 因此,基于真空科学技术的理论计算泄漏量,即可以在不使用其他装置的情况下确定泄漏量,并且可以测量微量泄漏量。 版权所有(C)2006,JPO&NCIPI
    • 9. 发明专利
    • Vacuum gauge
    • 真空计
    • JP2006047288A
    • 2006-02-16
    • JP2005182484
    • 2005-06-22
    • Kofukin Seimitsu Kogyo (Shenzhen) YugenkoshiQinghua Univツィンファ ユニバーシティ鴻富錦精密工業(深▲セン▼)有限公司
    • RYU HOGI YOSEI RAIBAILIU LIANGKO SHOFUKUKAKU SAIRINCHIN HIKINFAN FENG-YAN
    • G01L21/34G01L21/32
    • G01N27/62
    • PROBLEM TO BE SOLVED: To provide a vacuum gauge with improved sensitivity, especially for an ionization vacuum gauge restricted in a saddle of electrostatic field.
      SOLUTION: This vacuum gauge includes a negative electrode unit, a positive electrode ring, a shield electrode, an ion extraction electrode, a reflection electrode, and a collector. One end of the shield electrode corresponds to the negative electrode unit, and the other end corresponds to the ion extraction electrode. The center of the ion extraction electrode is formed with an ion extraction hole. The reflection electrode is configured in a curved face, and the curved face configuration surrounds one side close to the ion extraction electrode of the shield electrode. The collector is provided in the bottom part of the curved face configuration of the reflection electrode and is directed to the ion extraction hole. The positive electrode ring is fixed inside the shield electrode. In the vacuum gauge, the advantages of the vacuum gauge of the saddle filed and the ionization vacuum gauge are combined, volume is small, consumption of energy is small, a configuration is simple, and the sensitivity is high.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供具有改进的灵敏度的真空计,特别是对于限制在静电场鞍座中的电离真空计。 解决方案:该真空计包括负极单元,正极环,屏蔽电极,离子提取电极,反射电极和集电体。 屏蔽电极的一端对应于负极单元,另一端对应于离子提取电极。 离子提取电极的中心形成有离子提取孔。 反射电极构成为弯曲面,曲面构造围绕靠近屏蔽电极的离子提取电极的一侧。 集电体设置在反射电极的曲面构造的底部,并且被引导到离子提取孔。 正极环固定在屏蔽电极内。 在真空计中,鞍座真空计和电离真空计的优点相结合,体积小,能量消耗小,配置简单,灵敏度高。 版权所有(C)2006,JPO&NCIPI