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    • 1. 发明授权
    • Method and apparatus for sterilizing medical devices using glow
discharges
    • 使用辉光放电对医疗器械进行消毒的方法和装置
    • US5573732A
    • 1996-11-12
    • US302621
    • 1994-09-08
    • Herbert A. WaggenerKazimierz Przydzial
    • Herbert A. WaggenerKazimierz Przydzial
    • A61L2/14B01J19/08
    • A61L2/14Y10S422/907
    • A medical device having a regular or irregular shape is sterilized in a sterilizing apparatus comprising a means for moveably supporting the medical device, and a electrode having an anode tip at one end thereof which is positioned to form a gap with a predetermined length between the anode tip and the medical device. To sterilize a portion of an outer surface of the medical device at the anode tip of the electrode, predetermined first and second voltages are applied to the anode tip and the medical device, respectively. The voltage and current applied to the anode tip and the medical device are raised to predetermined values to provide a voltage differential across the gap to form a glow discharge adjacent the outer surface of the medical device for sterilizing the outer surface of the medical device. The entire outer surface around the medical device is sterilized by, for example, positioning a plurality of energized electrodes around the medical device to form a continuous band of glow discharges around the medical device. A length of the medical device can be sterilized by moving the medical device and the anode tips of the electrodes relative to each other while forming a sequence of overlapping glow discharges both along a predetermined length and around the outer surface of the medical device.
    • 具有规则或不规则形状的医疗装置在包括用于可移动地支撑医疗装置的装置的消毒装置中灭菌,以及在其一端具有阳极尖端的电极,该电极被定位成在阳极之间形成预定长度的间隙 尖端和医疗设备。 为了在电极的阳极端部对医疗器械的外表面的一部分进行消毒,预定的第一和第二电压分别施加到阳极尖端和医疗装置。 施加到阳极尖端和医疗装置的电压和电流升高到预定值,以在间隙上提供电压差,以在医疗装置的外表面附近形成辉光放电,用于对医疗装置的外表面进行消毒。 医疗装置周围的整个外表面通过例如在医疗装置周围定位多个通电电极来消毒,以在医疗装置周围形成连续的辉光放电带。 可以通过相对于彼此移动医疗装置和电极的阳极尖端,同时沿着预定长度和医疗装置的外表面形成一系列重叠的辉光放电来消毒医疗装置的长度。
    • 2. 发明授权
    • Method of manufacturing an insulated gate field-effect transistor
therefore in a silicon wafer
    • 因此,在硅晶片中制造绝缘栅场效应晶体管的方法
    • US4317276A
    • 1982-03-02
    • US158680
    • 1980-06-12
    • Richard H. HeerenHerbert A. Waggener
    • Richard H. HeerenHerbert A. Waggener
    • H01L29/78H01L21/033H01L21/225H01L21/336H01L21/283
    • H01L29/66606H01L21/033Y10S438/981
    • A method of manufacturing a device in a wafer with a P-type semiconductor, includes forming on a surface of the semiconductor body a layer of silicon dioxide doped with an N-type dopant. The portion of the doped silicon dioxide covering the interconnect work site area is removed and a masking layer of an oxidation impervious medium is formed over the wafer and thereafter removed from the field areas, as is the doped silicon dioxide layer. A thin layer of gate oxide is formed over the field areas. A layer of conductive polysilicon is formed over the entire wafer followed by a layer of oxygen impervious masking medium. The conductive polysilicon and masking medium layers are removed from all areas of the wafer except those whereat transistors are to be formed. The wafer is exposed to an oxidizing environment under an elevated temperature producing a field oxide over the exposed gate oxide. The elevated temperature of this operation drives the dopant in the doped silicon oxide layer into the semiconductor body forming doped source/drain regions and doped first level conductor runs. Thereafter the masking medium covering the interconnect work site area is removed and the work site area diffused with an N-type dopant. Finally, second level conductor runs are formed on the wafer.
    • 在具有P型半导体的晶片中制造器件的方法包括在半导体本体的表面上形成掺杂有N型掺杂剂的二氧化硅层。 去除覆盖互连工作区域的掺杂二氧化硅的部分,并且在晶片上形成不透氧介质的掩蔽层,然后从场区域去除掺杂二氧化硅层。 在场区域上形成薄层的栅极氧化物。 在整个晶片上形成一层导电多晶硅,随后是一层不透氧的掩蔽介质。 导电多晶硅和掩模介质层除晶体管将要形成的那些外,从晶圆的所有区域去除。 晶片在升高的温度下暴露于氧化环境,在暴露的栅极氧化物上产生场氧化物。 该操作的升高的温度将掺杂的氧化硅层中的掺杂剂驱动到形成掺杂的源极/漏极区域和掺杂的一级导体的半导体本体中。 此后,覆盖互连工作区域的掩蔽介质被去除,工作区域用N型掺杂剂扩散。 最后,在晶片上形成第二级导体。
    • 3. 发明授权
    • Caster wheel lift and brake assembly
    • 脚轮提升和制动总成
    • US08650710B1
    • 2014-02-18
    • US14032272
    • 2013-09-20
    • Herbert A. Waggener
    • Herbert A. Waggener
    • B60B33/00
    • B60B33/006B60B33/0049B60B33/0057B60B33/0078B60B33/02B60B2200/22Y10T16/195Y10T16/218
    • A caster wheel assembly includes a vertical axis brake and barrier-traversing member. The caster shaft housing contains a vertically movable element with stator surface adjacent the caster wheel assembly. The barrier-traversing member with barrier contact surface is fastened to the caster wheel assembly. A braking surface member is attached to the barrier-traversing member opposite the barrier contact surface and adjacent the stator surface. In operation, the moving caster wheel assembly first contacts an obstacle with the barrier contact surface of the barrier-traversing member. The obstacle elevates the barrier-traversing member and attached braking surface member into contact with the vertically movable element of the stator surface of the caster shaft housing, thereby restraining rotation of the caster wheel assembly. Further forward movement of the rotation-restrained caster wheel assembly allows the barrier-traversing member to elevate the caster wheel, transfer load to the caster wheel, and thereby more easily traverse the obstacle.
    • 脚轮组件包括垂直轴制动器和阻挡横向构件。 脚轮轴壳体包含可垂直移动的元件,其具有邻近脚轮组件的定子表面。 具有阻挡接触表面的阻挡横向构件紧固到脚轮组件。 制动表面构件附接到与挡板接触表面相对并且靠近定子表面的阻挡横向构件。 在操作中,移动脚轮组件首先与障碍物穿过构件的阻挡接触表面接触障碍物。 障碍物将阻挡横移构件和附接的制动表面构件升高成与脚轮轴壳体的定子表面的可垂直移动的元件接触,由此限制脚轮组件的旋转。 旋转限制脚轮组件的进一步向前运动允许阻挡横向构件提升脚轮,将载荷传递给脚轮,从而更容易地横过障碍物。
    • 4. 发明授权
    • Caster wheel lift and brake assembly
    • 脚轮提升和制动总成
    • US08539640B1
    • 2013-09-24
    • US13716102
    • 2012-12-15
    • Herbert A. Waggener
    • Herbert A. Waggener
    • B60B33/00
    • B60B33/006B60B33/0049B60B33/0057B60B33/02B60B2200/22Y10T16/195Y10T16/218
    • A caster wheel assembly includes a vertical axis brake and barrier-traversing member. The caster shaft housing contains a stator surface adjacent the caster wheel assembly. The barrier-traversing member with barrier contact surface is biasedly fastened to the caster wheel assembly. A braking surface member is attached to the barrier-traversing member opposite the barrier contact surface and adjacent the stator surface. In operation, the moving caster wheel assembly first contacts an obstacle with the barrier contact surface of the barrier-traversing member. The encountered obstacle elevates the barrier-traversing member and attached braking surface member into contact with the stator surface of the caster shaft housing, thereby restraining rotation of the caster wheel assembly. Then, further forward movement of the rotation-restrained caster wheel assembly allows the barrier-traversing member to elevate the caster wheel, transfer load to the caster wheel, and thereby more easily traverse the obstacle.
    • 脚轮组件包括垂直轴制动器和阻挡横向构件。 脚轮轴壳体包括邻近脚轮组件的定子表面。 具有阻挡接触表面的阻挡横向构件被偏置地紧固到脚轮组件。 制动表面构件附接到与挡板接触表面相对并且靠近定子表面的阻挡横向构件。 在操作中,移动脚轮组件首先与障碍物穿过构件的阻挡接触表面接触障碍物。 所遇到的障碍物使障碍物横动构件和附接的制动表面构件与脚轮轴壳体的定子表面接触,由此限制脚轮组件的旋转。 然后,旋转限制脚轮组件的进一步前进运动允许挡板横动构件升高脚轮,将载荷传递给脚轮,从而更容易地横过障碍物。
    • 9. 发明授权
    • Stabilizing support mechanism for electron beam apparatus
    • 电子束装置稳定支撑机构
    • US5644137A
    • 1997-07-01
    • US610749
    • 1996-03-04
    • Herbert A. WaggenerKurt Werder
    • Herbert A. WaggenerKurt Werder
    • H01J37/20G01B9/02
    • H01J37/20H01J2237/20292
    • An electron beam apparatus is provided with a support mechanism upon which X and Y axis interferometers are mounted within a vacuum chamber. By employing a flat ring of a low coefficient of thermal expansion glass ceramic composition affixed beneath the chamber upper wall and to which the interferometers are mounted, the normal extremes of vacuum and heat as existing within the chamber are resisted to insure of a fixed horizontal alignment of the beams as projected by the interferometers during operation of the apparatus. Flexure mounts are included for the interferometer ring together with a magnetic shield disposed adjacent the ring undersurface. Stability of workpieces is further enhanced by the use of the same glass ceramic composition in the formation of the carrier and its reference plate of the apparatus.
    • 电子束装置设置有支撑机构,X和Y轴干涉仪安装在该支撑机构的真空室内。 通过使用固定在室上壁下方并且安装干涉仪的低热膨胀系数的玻璃陶瓷组合物的平环,存在于室内的正常的真空和热量极限被抵抗以确保固定的水平对准 在设备操作期间由干涉仪投射的光束。 干涉仪环包括挠性支架以及邻近环形下表面设置的磁屏蔽。 通过使用相同的玻璃陶瓷组合物形成载体及其参考板,进一步提高了工件的稳定性。