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    • 8. 发明申请
    • Flanged inner conductor coaxial resonators
    • 法兰内导体同轴谐振器
    • US20040257177A1
    • 2004-12-23
    • US10600151
    • 2003-06-19
    • Teuvo HaapalahtiPekka JokilehtoTapio SuvantoPentti Mehtatalo
    • H01P007/04
    • H01P7/04H01P11/008Y10T29/49005Y10T29/4908Y10T29/49858Y10T29/53139Y10T29/53235Y10T29/53239Y10T29/5327
    • A method and apparatus for making an inner conductor from a conductive body integrally forms a flange on one end of the conductive body. The flange is formed integral to the conductive body by flaring the end of the conductive body. The size and shape of the flange is selected to achieve a desired capacitance surface area for use in a resonator. A resonator housing that has a plurality of cavities can be provided with a plurality of conductive bodies that are inserted into holes located in a bottom wall of the resonator body and that protrude into the plurality of cavities. The resonator housing and conductive bodies are placed onto a flanging fixture to produce a flange on each conductive body of a desired size and shape to achieve a desired capacitance surface area. The plurality of conductive bodies can be simultaneously flanged and fastened to the base of the resonator housing.
    • 用于从导电体制造内部导体的方法和装置在导电体的一端一体地形成凸缘。 通过扩大导电体的端部,法兰与导电体形成一体。 选择凸缘的尺寸和形状以实现在谐振器中使用的期望的电容表面积。 具有多个空腔的谐振器壳体可以设置有多个导电体,其插入到位于谐振器本体的底壁中并突出到多个空腔中的孔中。 谐振器壳体和导电体被放置在凸缘夹具上,以在所需尺寸和形状的每个导电体上产生凸缘,以实现所需的电容表面积。 多个导电体可以同时凸缘并紧固到谐振器壳体的基部。
    • 10. 发明授权
    • Method of assembling a non-metallic biopsy forceps jaw and a non-metallic biopsy forceps jaw
    • 组装非金属活检钳钳和非金属活检钳钳的方法
    • US06440085B1
    • 2002-08-27
    • US09878308
    • 2001-06-12
    • Jacek Krzyzanowski
    • Jacek Krzyzanowski
    • A61B500
    • A61B10/06A61B2017/2825A61B2017/2947Y10T29/4984Y10T29/49858Y10T29/49876Y10T29/53909
    • A biopsy forceps jaw device and method of assembling, comprising pivotally mounting to a single flat support having a single aperture a threaded, self-centering proximal end and a pointed distal end, an integrally connected non-metallic jaw assembly having a cutting plane. The integrally connected non-metallic jaw assembly pivots about a common axis within the single aperture allowing for rotation of the integrally connected non-metallic jaw assembly within the cutting plane. A pair of actuating wires for moving the integrally connected jaw non-metallic assembly from a closed position to an open position is attached to the integrally connected non-metallic jaw assembly. The threaded self-centering proximal end of single flat support and the pair of actuating wires are inserted into a tubular member. The integrally connected non-metallic jaw assembly and the single flat support are centered within the tubular member through the threaded self-centering proximal end.
    • 一种活检钳钳装置和组装方法,包括枢转地安装到具有单个孔的单个平面支撑件,所述单个孔具有螺纹的自定心近端和尖的远端,具有切割平面的整体连接的非金属夹爪组件。 整体连接的非金属夹爪组件围绕单个孔中的共同轴线枢转,允许整体连接的非金属夹爪组件在切割平面内旋转。 用于将整体连接的夹爪非金属组件从关闭位置移动到打开位置的一对致动线被附接到整体连接的非金属夹爪组件。 单个平面支撑件的螺纹自定心近端和一对致动丝线插入管状构件中。 整体连接的非金属夹爪组件和单个平面支撑件通过螺纹自定心近端在管状构件内居中。