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    • 1. 发明授权
    • Method and apparatus for utilizing a laser-guided gas-embedded pinchlamp device
    • 利用激光引导气体嵌入式灯光灯装置的方法和装置
    • US06277202B1
    • 2001-08-21
    • US09140645
    • 1998-08-26
    • John F. Asmus
    • John F. Asmus
    • B08B700
    • B44D3/16B08B7/0057B64F5/30H01J2261/00
    • A method and apparatus for the removal of coatings from surfaces utilizing UV energy. Preferably, the use of a laser-guided gas-embedded pinchlamp is utilized to remove paint coatings from aircraft surfaces. In a preferred form, the present invention provides a gas-embedded laser-guided pinchlamp device that, in operation, reduces toxic waste bi-products and can remove surface paint, in particular aircraft surface paint, or other coatings at a higher efficiency than all other alternative methods implemented or investigated to date. The present invention may preferably comprise eight distinct support systems; a plasma pinchlamp chamber, a power supply, a laser system, a gas supply system and coolant system, an optical reflector, a debris collection system for containing and catching toxic effluvients, an encasement device to contain effluvium in conjunction with the collection system, and a pinchlamp positioning system. It should be noted that the present invention need not incorporate all these systems in an operable embodiment. A gas-embedded laser-guided pinchlamp device is generally described in U.S. Pat. No. 4,450,568 to Asmus which patent and description of a pinchlamp device are incorporated herein by reference as if fully described herein.
    • 一种利用紫外线能量去除表面涂层的方法和装置。 优选地,使用激光引导的气体嵌入式夹纱器来从飞行器表面去除油漆涂层。 在优选形式中,本发明提供了一种气体嵌入式激光导向夹纱装置,其在操作中减少有毒废物双重产物,并且可以以比所有的更高效率去除表面涂料,特别是飞机表面涂料或其它涂层 迄今实施或调查的其他替代方法。 本发明可以优选包括八个不同的支撑系统; 等离子体小灯室,电源,激光系统,气体供应系统和冷却剂系统,光学反射器,用于容纳和捕获有毒污染物的碎片收集系统,与收集系统一起包含渗出物的包装装置,以及 pinchlamp定位系统。 应当注意,本发明不需要将所有这些系统并入可操作的实施例中。 气体嵌入式激光导向夹纱装置通常在美国专利No. Asmus的第4,450,568号专利和夹角灯装置的描述通过引用并入本文,如同在此完全描述的那样。
    • 2. 发明授权
    • Pumping a photolytic laser utilizing a plasma pinch
    • 使用等离子体夹紧泵送光解激光
    • US4450568A
    • 1984-05-22
    • US321118
    • 1981-11-13
    • John F. Asmus
    • John F. Asmus
    • H01S3/09H01S3/095
    • H01S3/09505H01S3/09
    • A preconditioning beam is used to excite gas particles preferentially along a channel between two electrodes in a laser chamber. The preconditioning beam may be an electron beam or a laser beam. An electrical discharge between the electrodes is conducted along the channel by the excited gas particles to form a gas embedded plasma pinch. Depending on the profile of the discharge, the pinch may be stable or collapsing. The pinch emits vacuum ultraviolet radiation which photodissociates molecules of the photolytic laser medium confined by the chamber. The dissociation creates a population inversion, initiating lasing activity. A resonator system reflects the developing laser pulse back and forth through the chamber to stimulate further emissions and facilitate pulse amplification. The developed pulse is transmitted by appropriate means.
    • 预激光束用于激发气体颗粒,优先沿着激光室中的两个电极之间的通道。 预处理光束可以是电子束或激光束。 电极之间的放电通过激发的气体颗粒沿通道进行,以形成气体封入的等离子体夹紧。 取决于放电的轮廓,夹点可能会稳定或塌陷。 夹持发射真空紫外线辐射,其使由腔室限制的光解激光介质的分子光合作用。 解离造成人口倒数,启动激光活动。 谐振器系统通过腔室来反射显影的激光脉冲,以刺激进一步的发射并促进脉冲放大。 开发的脉冲通过适当的方式传输。
    • 7. 发明授权
    • Inner/outer coaxial tube arrangement for a plasma pinch chamber
    • 用于等离子体夹送室的内/外同轴管布置
    • US06445134B1
    • 2002-09-03
    • US09727247
    • 2000-11-30
    • John F. Asmus
    • John F. Asmus
    • H01J724
    • H05H1/52G03F7/2004G03F7/2039H01J61/302H01J61/34H01J61/523H01J61/84H01J61/90H01J65/04
    • A plasma pinch having an inner/outer coaxial tube arrangement, which nested tube arrangement yields a higher-performance pinchlamp than is capable with a single-tube configuration. Further, each tube contains a separate gas, the inner tube filled with Argon, and the outer tube filled with Helium. The inner/outer coaxial tube arrangement of the present invention facilitates the use of an inner tube to contain a volume of Argon gas as the working gas. The outer tube is coaxial with the inner tube, surrounding the inner tube with contained Helium gas. The configuration of an outer tube filled with Helium presents external pressures to the inner tube. The contained Helium gas in the outer tube, among other things, compresses and supports the walls of the inner tube, enabling the inner tube to be smaller in diameter than prior art plasma chambers, which chambers would shatter if made with as small a diameter as the present inner tube.
    • 具有内/外同轴管布置的等离子体夹管,该嵌套管布置产生比具有单管构造的更高性能的夹纱灯。 此外,每个管含有单独的气体,内管充满氩气,外管充满氦气。 本发明的内/外同轴管装置有助于使用内管来容纳一定体积的氩气作为工作气体。 外管与内管同轴,围绕包含氦气的内管。 填充有氦气的外管的结构向内管提供外部压力。 外管中包含的氦气除其他外,压缩和支撑内管的壁,使得内管的直径比现有技术的等离子体室小,如果制成的直径小至 目前的内管。