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    • 3. 发明申请
    • Automated fiber optic connectorization apparatus and method
    • 自动光纤连接装置及方法
    • US20030128939A1
    • 2003-07-10
    • US10222671
    • 2002-08-16
    • McDonnell Douglas Corporation
    • Sang Van NguyenFoad TowfiqJohn Andrew White
    • G02B006/00G02B006/36
    • G01M11/31B08B1/00B08B2240/02G01M11/331G02B6/245G02B6/25G02B6/3807G02B6/3861G02B6/3863Y10T29/53043
    • A method and apparatus is provided for mounting any one of a plurality of types of connectors upon the end portion of a fiber optic cable. The automated fiber optic connectorization apparatus includes a memory device for storing data relating to a plurality of types of connectors. The automated fiber optic connectorization apparatus also includes a controller for receiving input from a system operator or other source that specifies the type of connector to be mounted upon the specified fiber optic cable, the polishing geometry, and the optical performance specifications. Based upon this input, the controller determines the components required to mount the specified type of connector upon the end portion of the fiber optic cable based upon the data stored by the memory device. The automated fiber optic connectorization apparatus also includes means for obtaining the necessary components and means for assembling these components upon the end portion of the fiber optic cable. Therefore, the automated fiber optic connectorization apparatus can automatically mount the specified type of connector upon the end portion of the fiber optic cable. The automated fiber optic connectorization apparatus can also include means for polishing the end face of the optical fiber and means for automatically inspecting the optical fiber after the end face of the optical fiber has been polished, but prior to mounting the connector upon the end portion of the optical fiber. The automated fiber optic connectorization apparatus can also test the optical performance of the connectorized fiber optic cable.
    • 提供了一种方法和装置,用于将多种类型的连接器中的任何一种安装在光纤电缆的端部上。 自动光纤连接装置包括用于存储与多种连接器有关的数据的存储装置。 自动光纤连接装置还包括一个控制器,用于接收来自系统操作者或其他来源的输入,该源指定要在指定的光纤电缆上安装的连接器的类型,抛光几何形状和光学性能规格。 基于该输入,控制器基于存储器件存储的数据确定将特定类型的连接器安装在光纤电缆的端部上所需的部件。 自动光纤连接装置还包括用于获得必要部件的装置以及用于在光缆的端部上组装这些部件的装置。 因此,自动光纤连接器装置可以将特定类型的连接器自动安装在光缆的端部上。 自动光纤连接装置还可以包括用于抛光光纤端面的装置和用于在光纤的端面被抛光之后,但是在将连接器安装到光纤的端部之前自动检查光纤的装置 光纤。 自动光纤连接装置还可以测试连接的光纤电缆的光学性能。
    • 4. 发明申请
    • Cassette for preparing the end face of an optical fiber
    • 用于准备光纤端面的盒
    • US20030053043A1
    • 2003-03-20
    • US10222666
    • 2002-08-16
    • McDonnell Douglas Corporation
    • Sang Van NguyenFoad TowfiqJohn Andrew White
    • G01N021/00
    • G01M11/31B08B1/00B08B2240/02G01M11/331G02B6/245G02B6/25G02B6/3807G02B6/3861G02B6/3863Y10T29/53043
    • A method and apparatus is provided for mounting any one of a plurality of types of connectors upon the end portion of a fiber optic cable. The automated fiber optic connectorization apparatus includes a memory device for storing data relating to a plurality of types of connectors. The automated fiber optic connectorization apparatus also includes a controller for receiving input from a system operator or other source that specifies the type of connector to be mounted upon the specified fiber optic cable, the polishing geometry, and the optical performance specifications. Based upon this input, the controller determines the components required to mount the specified type of connector upon the end portion of the fiber optic cable based upon the data stored by the memory device. The automated fiber optic connectorization apparatus also includes means for obtaining the necessary components and means for assembling these components upon the end portion of the fiber optic cable. Therefore, the automated fiber optic connectorization apparatus can automatically mount the specified type of connector upon the end portion of the fiber optic cable. The automated fiber optic connectorization apparatus can also include means for polishing the end face of the optical fiber and means for automatically inspecting the optical fiber after the end face of the optical fiber has been polished, but prior to mounting the connector upon the end portion of the optical fiber. The automated fiber optic connectorization apparatus can also test the optical performance of the connectorized fiber optic cable.
    • 提供了一种方法和装置,用于将多种类型的连接器中的任何一种安装在光纤电缆的端部上。 自动光纤连接装置包括用于存储与多种连接器有关的数据的存储装置。 自动光纤连接装置还包括一个控制器,用于接收来自系统操作者或其他来源的输入,该源指定要在指定的光纤电缆上安装的连接器的类型,抛光几何形状和光学性能规格。 基于该输入,控制器基于存储器件存储的数据确定将特定类型的连接器安装在光纤电缆的端部上所需的部件。 自动光纤连接装置还包括用于获得必要部件的装置以及用于在光缆的端部上组装这些部件的装置。 因此,自动光纤连接器装置可以将特定类型的连接器自动安装在光缆的端部上。 自动光纤连接装置还可以包括用于抛光光纤端面的装置和用于在光纤的端面被抛光之后,但是在将连接器安装到光纤的端部之前自动检查光纤的装置 光纤。 自动光纤连接装置还可以测试连接的光纤电缆的光学性能。
    • 6. 发明申请
    • Optical fiber cartridge assembly
    • 光纤盒组件
    • US20030048435A1
    • 2003-03-13
    • US10222369
    • 2002-08-16
    • McDonnell Douglas Corporation
    • Sang Van NguyenFoad TowfiqJohn Andrew White
    • G01N021/00
    • G01M11/31B08B1/00B08B2240/02G01M11/331G02B6/245G02B6/25G02B6/3807G02B6/3861G02B6/3863Y10T29/53043
    • A method and apparatus is provided for mounting any one of a plurality of types of connectors upon the end portion of a fiber optic cable. The automated fiber optic connectorization apparatus includes a memory device for storing data relating to a plurality of types of connectors. The automated fiber optic connectorization apparatus also includes a controller for receiving input from a system operator or other source that specifies the type of connector to be mounted upon the specified fiber optic cable, the polishing geometry, and the optical performance specifications. Based upon this input, the controller determines the components required to mount the specified type of connector upon the end portion of the fiber optic cable based upon the data stored by the memory device. The automated fiber optic connectorization apparatus also includes means for obtaining the necessary components and means for assembling these components upon the end portion of the fiber optic cable. Therefore, the automated fiber optic connectorization apparatus can automatically mount the specified type of connector upon the end portion of the fiber optic cable. The automated fiber optic connectorization apparatus can also include means for polishing the end face of the optical fiber and means for automatically inspecting the optical fiber after the end face of the optical fiber has been polished, but prior to mounting the connector upon the end portion of the optical fiber. The automated fiber optic connectorization apparatus can also test the optical performance of the connectorized fiber optic cable.
    • 提供了一种方法和装置,用于将多种类型的连接器中的任何一种安装在光纤电缆的端部上。 自动光纤连接装置包括用于存储与多种连接器有关的数据的存储装置。 自动光纤连接装置还包括一个控制器,用于接收来自系统操作者或其他来源的输入,该源指定要在指定的光纤电缆上安装的连接器的类型,抛光几何形状和光学性能规格。 基于该输入,控制器基于存储器件存储的数据确定将特定类型的连接器安装在光纤电缆的端部上所需的部件。 自动光纤连接装置还包括用于获得必要部件的装置以及用于在光缆的端部上组装这些部件的装置。 因此,自动光纤连接器装置可以将特定类型的连接器自动安装在光缆的端部上。 自动光纤连接装置还可以包括用于抛光光纤端面的装置和用于在光纤的端面被抛光之后,但是在将连接器安装到光纤的端部之前自动检查光纤的装置 光纤。 自动光纤连接装置还可以测试连接的光纤电缆的光学性能。
    • 7. 发明申请
    • Cementitious ceramic surface having controllable reflectance and texture
    • 水泥陶瓷表面具有可控的反射和纹理
    • US20020192512A1
    • 2002-12-19
    • US10223951
    • 2002-08-20
    • McDonnell Douglas Corporation
    • Robert A. Dichiara JR.Robert W. Kreutzer
    • B32B009/00
    • C23C26/00C23C24/08
    • An article is fabricated with a ceramic surface having a controllable surface finish. In one form, the ceramic is applied as a coating to a substrate article. Preferably, an aqueous coating mixture of phosphoric acid, alumina powder, and cordierite powder is prepared. The mixture is contacted to the surface of the article, and a mechanical overpressure is applied to the external surface of the mixture using a pressing tool. The surface character of the pressing tool, such as a smooth surface or an intentionally patterned surface, is reproduced on the surface of the final ceramic coating. The coating is heated to a moderate temperature to set the ceramic of the coating, and thereafter the coating is heated to a higher, but still intermediate temperature, to cure the coating.
    • 制造具有可控表面光洁度的陶瓷表面的制品。 在一种形式中,陶瓷作为涂层施加到基底制品上。 优选制备磷酸,氧化铝粉末和堇青石粉末的水性涂料混合物。 混合物与制品的表面接触,并使用压制工具将机械超压施加到混合物的外表面。 在最终陶瓷涂层的表面上再现压制工具的表面特征,例如光滑表面或有意图案的表面。 将涂层加热至适中的温度以设置涂层的陶瓷,然后将涂层加热至较高但仍处于中间温度以固化涂层。
    • 8. 发明申请
    • Pulsed Detonation Engine With Divergent Inflow Transition Section
    • 脉冲引爆发动机不同流入过渡段
    • US20020078679A1
    • 2002-06-27
    • US10008799
    • 2001-11-13
    • McDonnell Douglas Corporation
    • Thomas A. KaemmingPaul G. WillhiteRichard S. DyerMichael A. Guntorius
    • F02K007/02
    • F02K7/02F02K7/06F02K7/12F02K7/20F05D2250/324
    • A pulsed detonation engine having an initiator tube fueled with an enhanced fuel mixture is configured in fluid communication with a detonation chamber via a divergent inflow transition section. The divergent inflow transition section has a diverging contoured shape having a rate of divergence continuously dependent upon the diameter of the tube, the critical diameter of the enhanced fuel mixture within the tube and the cross-sectional area of the detonation chamber. The inflow transition section, which may have a stair-step configuration, includes a plurality of fuel and/or air ports to permit the fuel and air to be injected through the transition section and into the detonation chamber. The pulsed detonation engine may optionally include a volume of ejector/bypass air surrounding the detonation chamber, which captures the detonation engine exhaust and mixes the exhaust with the ejector air, and a back pressure device for feeding dynamic pressure ejector air to the interior of the detonation chamber near its outlet end.
    • 具有用增强的燃料混合物燃料的起动器管的脉冲式爆震发动机构造成通过发散流入过渡段与爆轰室流体连通。 发散流入过渡段具有发散的轮廓形状,其发散速率连续取决于管的直径,管内的增强的燃料混合物的临界直径和爆炸室的横截面积。 可以具有阶梯构造的流入过渡部分包括多个燃料和/或空气端口,以允许燃料和空气通过过渡段注入并进入引爆室。 脉冲爆震发动机可以可选地包括围绕引爆室的一定体积的喷射器/旁路空气,其捕获引爆发动机排气并将排气与喷射器空气混合,以及用于将动态压力喷射器空气供给到内部的背压装置 爆炸室靠近其出口端。