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1. 发明申请

US20080174296A1 MAGNETIC INDEXER FOR HIGH ACCURACY HOLE DRILLING 有权
标题翻译：用于高精度孔钻的磁性指示器
公开(公告)号：US20080174296A1
公开(公告)日：2008-07-24
申请号：US12056325
申请日：2008-03-27
申请人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
发明人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
IPC分类号： B23B49/00
CPC分类号： G01D5/145 , B23B49/00 , B23B51/02 , B23B2215/04 , B23B2260/0485 , B23B2260/10 , B23B2260/118 , B23B2260/128 , B23B2270/38 , B23B2270/48 , G01V15/00
摘要： A magnetic indexer for locating a device producing a magnetic field in a blind or inaccessible position of a work piece. A magnet is initially placed on a first side of the work piece such that a magnetic field produced by the magnet extends through the work piece and substantially perpendicular to a surface of the work piece. A device comprising a plurality of probes for sensing magnetic fields is then positioned over a second surface of the work piece. The probes are then moved over the second surface to determine the location of the axis of the magnet via the strength of the sensed magnetic field. Once the position of the axis of the magnet is determined, the work surface is either marked or worked on through the platform on which the probes are positioned. In particular, a hole may be accurately drilled or otherwise formed directly over the magnet even when the first surface of the work piece cannot be seen. Additionally, the present invention allows a very accurate positioning of a work tool on the second surface without the need to first visualize the first surface of the work piece.
摘要翻译：磁性分度器，用于定位在工件的盲目或不可接近的位置产生磁场的装置。磁体最初放置在工件的第一侧上，使得由磁体产生的磁场延伸穿过工件并且基本上垂直于工件的表面。然后将包括用于感测磁场的多个探针的装置定位在工件的第二表面上。然后将探头移动到第二表面上，以经由感测磁场的强度确定磁体的轴线的位置。一旦确定了磁体轴线的位置，工件表面就被标记或通过探头定位的平台进行加工。特别地，即使当不能看到工件的第一表面时，也可以精确地钻孔或直接在磁体上形成孔。此外，本发明允许在第二表面上非常精确地定位作业工具，而不需要首先将工件的第一表面可视化。

2. 发明授权

US07768250B2 Magnetic indexer for high accuracy hole drilling 有权
标题翻译：磁选机用于高精度钻孔
公开(公告)号：US07768250B2
公开(公告)日：2010-08-03
申请号：US12197580
申请日：2008-08-25
申请人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
发明人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
IPC分类号： G01R33/02 , G01B7/00
CPC分类号： G01D5/145 , B23B49/00 , B23B51/02 , B23B2215/04 , B23B2260/0485 , B23B2260/10 , B23B2260/118 , B23B2260/128 , B23B2270/38 , B23B2270/48 , G01V15/00
摘要： A method for locating a device, which produces a field, with a probe assembly affected by the field. The method may involve: placing a device on a first side of a work piece; producing a field with the device through the work piece; using a robot to hold and to place a probe assembly adjacent a second side of the work piece; providing information from the probe assembly to the robot that is used by the robot to move the probe assembly to substantially determine a position of the device; determining a location of a center field axis of the field with the probe assembly; and providing a physical confirmation of the center field axis to a user.
摘要翻译：用于定位产生场的设备的方法，其中探测器组件受到该场的影响。该方法可以包括：将设备放置在工件的第一侧上; 通过工件生产设备; 使用机器人来保持并将探针组件放置在工件的第二侧附近; 将所述探针组件提供给所述机器人的信息，所述机器人由所述机器人用于移动所述探针组件以基本上确定所述装置的位置; 使用所述探针组件确定所述场的中心场轴的位置; 并向用户提供中心场轴的物理确认。

3. 发明授权

US07768249B2 Magnetic indexer for high accuracy hole drilling 有权
标题翻译：磁选机用于高精度钻孔
公开(公告)号：US07768249B2
公开(公告)日：2010-08-03
申请号：US12056325
申请日：2008-03-27
申请人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
发明人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
IPC分类号： G01R33/02 , G01B7/00
CPC分类号： G01D5/145 , B23B49/00 , B23B51/02 , B23B2215/04 , B23B2260/0485 , B23B2260/10 , B23B2260/118 , B23B2260/128 , B23B2270/38 , B23B2270/48 , G01V15/00
摘要： A magnetic indexer for locating a device producing a magnetic field in a blind or inaccessible position of a work piece. A magnet is initially placed on a first side of the work piece such that a magnetic field produced by the magnet extends through the work piece and substantially perpendicular to a surface of the work piece. A device comprising a plurality of probes for sensing magnetic fields is then positioned over a second surface of the work piece. The probes are then moved over the second surface to determine the location of the axis of the magnet via the strength of the sensed magnetic field. Once the position of the axis of the magnet is determined, the work surface is either marked or worked on through the platform on which the probes are positioned. In particular, a hole may be accurately drilled or otherwise formed directly over the magnet even when the first surface of the work piece cannot be seen. Additionally, the present invention allows a very accurate positioning of a work tool on the second surface without the need to first visualize the first surface of the work piece.
摘要翻译：磁性分度器，用于定位在工件的盲目或不可接近的位置产生磁场的装置。磁体最初放置在工件的第一侧上，使得由磁体产生的磁场延伸穿过工件并且基本上垂直于工件的表面。然后将包括用于感测磁场的多个探针的装置定位在工件的第二表面上。然后将探头移动到第二表面上，以经由感测磁场的强度确定磁体的轴线的位置。一旦确定了磁体轴线的位置，工件表面就被标记或通过探头定位的平台进行加工。特别地，即使当不能看到工件的第一表面时，也可以精确地钻孔或直接在磁体上形成孔。此外，本发明允许在第二表面上非常精确地定位作业工具，而不需要首先将工件的第一表面可视化。

4. 发明申请

US20080315869A1 MAGNETIC INDEXER FOR HIGH ACCURACY HOLE DRILLING 有权
标题翻译：用于高精度孔钻的磁性指示器
公开(公告)号：US20080315869A1
公开(公告)日：2008-12-25
申请号：US12197580
申请日：2008-08-25
申请人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
发明人： Gary E. Georgeson , Joseph L. Hafenrichter , Raymond D. Rempt , Gregory L. Clark
IPC分类号： G01R33/02
CPC分类号： G01D5/145 , B23B49/00 , B23B51/02 , B23B2215/04 , B23B2260/0485 , B23B2260/10 , B23B2260/118 , B23B2260/128 , B23B2270/38 , B23B2270/48 , G01V15/00
摘要： A method for locating a device, which produces a field, with a probe assembly affected by the field. The method may involve: placing a device on a first side of a work piece; producing a field with the device through the work piece; using a robot to hold and to place a probe assembly adjacent a second side of the work piece; providing information from the probe assembly to the robot that is used by the robot to move the probe assembly to substantially determine a position of the device; determining a location of a center field axis of the field with the probe assembly; and providing a physical confirmation of the center field axis to a user.
摘要翻译：用于定位产生场的设备的方法，其中探测器组件受到该场的影响。该方法可以包括：将设备放置在工件的第一侧上; 通过工件生产设备; 使用机器人来保持并将探针组件放置在工件的第二侧附近; 将所述探针组件提供给所述机器人的信息，所述机器人由所述机器人用于移动所述探针组件以基本上确定所述装置的位置; 使用所述探针组件确定所述场的中心场轴的位置; 并向用户提供中心场轴的物理确认。

5. 发明授权

US06927560B2 Control system and method for a magnetic indexer for high accuracy hole drilling 有权
标题翻译：高精度钻孔磁选机的控制系统及方法
公开(公告)号：US06927560B2
公开(公告)日：2005-08-09
申请号：US10448560
申请日：2003-05-30
申请人： Samuel F. Pedigo , Gary E. Georgeson , Raymond D. Rempt , Gregory L. Clark , Joseph L. Hafenrichter
发明人： Samuel F. Pedigo , Gary E. Georgeson , Raymond D. Rempt , Gregory L. Clark , Joseph L. Hafenrichter
IPC分类号： B23Q17/22 , B23B49/00 , B23B51/02 , G01V15/00 , G01R33/02 , G01B7/00
CPC分类号： G01D5/145 , B23B49/00 , B23B51/02 , B23B2215/04 , B23B2260/0485 , B23B2260/10 , B23B2260/118 , B23B2260/128 , B23B2270/38 , B23B2270/48 , G01V15/00
摘要： A method for locating a device producing a magnetic field in a blind or inaccessible position of a work piece. A magnet is initially placed on a first side of the work piece such that a magnetic field produced by the magnet extends through the work piece. Probes are then positioned over a second surface of the work piece to determine the location of the axis of the magnet via the strength of the sensed magnetic field and the location where the strength measurements are made. Once the position of the axis of the magnet is determined, the work surface is either marked or worked on through the platform on which the probes are positioned. In particular, the present invention allows a very accurate positioning of a work tool on the second surface without the need to first visualize the first surface of the work piece.
摘要翻译：一种用于定位在工件的盲目或不可接近的位置产生磁场的装置的方法。最初将磁体放置在工件的第一侧上，使得由磁体产生的磁场延伸穿过工件。然后将探头定位在工件的第二表面上，以经由感测的磁场的强度和进行强度测量的位置确定磁体的轴线的位置。一旦确定了磁体轴线的位置，工件表面就被标记或通过探头定位的平台进行加工。特别地，本发明允许工件在第二表面上的非常准确的定位，而不需要首先使工件的第一表面可视化。

6. 发明授权

US4686022A Method and apparatus for producing a monatomic beam of ground-state atoms 失效
标题翻译：用于制造基态原子的单原子束的方法和装置
公开(公告)号：US4686022A
公开(公告)日：1987-08-11
申请号：US779826
申请日：1985-09-25
申请人： Raymond D. Rempt
发明人： Raymond D. Rempt
IPC分类号： B01J19/08 , B01J19/12 , C01B3/00 , C01B13/02 , B01D53/32 , H01J49/20
CPC分类号： B01J19/121 , B01J19/08 , C01B13/02 , C01B3/0094
摘要： A specimen of molecules containing the desired element is contained in a low-pressure environment and is exposed to a beam of electrons of predetermined energy, causing the electrons to be captured by the molecules. The reaction is chosen so that there is a natural dissociation into an ion containing the desired element. The reaction region is subjected to an electrical field that accelerates the ions and removes them from the reaction region, at which time the ions are exposed to a laser beam of a wavelength sufficient to photodetach a substantial number of electrons from the ions, producing neutral atoms of the desired element. The entire particle stream exiting the interaction region is subjected to a magnetic field that bends the charged ions away from the neutral atoms so that the neutral atoms can then be directed to a test specimen or collection device, as the case may be. The apparatus for carrying out the method includes a pressure vessel for maintaining the environment in which the reactions take place at a pressure in the neighborhood of 10.sup.-4 Torr and, typically, the same magnetic field that is used to separate the ions from the neutral atoms is also used to collimate the electron beam for better localization, to interact with the molecules.
摘要翻译：含有所需元素的分子样本被包含在低压环境中并暴露于预定能量的电子束，导致电子被分子俘获。选择该反应使得存在天然离解成含有所需元素的离子。反应区域受到加速离子并将其从反应区域中除去的电场，此时离子暴露于足以从离子中吸收大量电子的波长的激光束，产生中性原子的所需元素。离开相互作用区域的整个颗粒物流受到使带电离子偏离中性原子的磁场，使得中性原子随后可被引导到测试样本或收集装置，视情况而定。用于实施该方法的装置包括用于保持反应发生在10-4托附近的压力下的环境的压力容器，通常用于将离子与中性离子分离的磁场通常相同的磁场原子也用于准直电子束以获得更好的定位，以与分子相互作用。

7. 发明授权

US5132620A Surface/subsurface corrosion detector with optical paths alterable by magnetically sensitive transducers 失效
标题翻译：表面/地下腐蚀检测器，光路可由磁敏传感器改变
公开(公告)号：US5132620A
公开(公告)日：1992-07-21
申请号：US525842
申请日：1990-05-21
申请人： Raymond D. Rempt
发明人： Raymond D. Rempt
IPC分类号： G01R33/022 , G01R33/032
CPC分类号： G01R33/0327 , G01R33/022
摘要： A fiber optic magnetic field gradiometer uses the first derivative of a magnetic field associated with a corrosion process to determine the location on the surface of a metal of the corrosion at its onset or very early stages, whereas eddy current type detectors detect the corrosion only after a significant amount of the metal has already been removed. Two adjacent flat magnetic transducers made of magneto-strictive glass, onto which are secured two optical fibers, are immersed in an applied magnetic field to null out material differences in the earth's magnetic field. The optical fibers are secured to a surface of each transducer to provide a relatively flat sandwiched pair of transducers. The flat magnetic transducers are sandwiched together and scanned over the metal surface. A magnetic field associated with the corrosion process in the direction of the axis of the flat magnetic transducers causes an optical path length change in the fibers. The overall path length's change is proportional to the first derivative of the magnetic field.
摘要翻译：光纤磁场梯度仪使用与腐蚀过程相关的磁场的一阶导数来确定金属腐蚀表面在其起始或非常早期的位置，而涡流型检测器仅在大量的金属已经被去除了。将由两个光纤固定在其上的由磁致密玻璃制成的两个相邻的平面磁换能器浸入施加的磁场中以消除地球磁场中的材料差异。光纤被固定到每个换能器的表面，以提供相对平坦的夹持的一对换能器。平面磁换能器被夹在一起并在金属表面上扫描。与平面磁换能器的轴方向上的腐蚀过程相关联的磁场引起光纤中的光程长度变化。总路径长度的变化与磁场的一阶导数成比例。

8. 发明授权

US4975572A Apparatus for producing a monatomic beam of ground-state atoms 失效
标题翻译：用于产生基态原子的单原子束的装置
公开(公告)号：US4975572A
公开(公告)日：1990-12-04
申请号：US445082
申请日：1989-11-30
申请人： Raymond D. Rempt
发明人： Raymond D. Rempt
IPC分类号： H05H3/02
CPC分类号： H05H3/02
摘要： An electron beam is directed into a first region containing gaseous molecules which capture electrons from the beam and then dissociate to produce negative ions. The ions are accelerated to the desired energy electrostatically and drawn to a second region where they are exposed to an intra-cavity laser beam which traverses their path. The laser is chosen to have a wavelength which will cause photodetachment of electrons to form neutral atoms. Simultaneously with the above, the electron beam and ions are collimated with a magnetic field. The neutral atoms are separated from any remaining ions or electrons by a repelling electrical potential provided by a repeller plate or the like.
摘要翻译：电子束被引导到含有气体分子的第一区域中，该区域从光束中捕获电子，然后解离以产生负离子。离子被静电加速到所需的能量并且被拉到第二区域，在那里它们暴露于穿过其路径的腔内激光束。选择激光器具有将导致电子的光电耦合以形成中性原子的波长。与此同时，电子束和离子用磁场准直。通过由推斥板等提供的排斥电位将中性原子与任何剩余的离子或电子分离。

9. 发明授权

US07375514B2 Flexible hand held MR scanning array for cracks/flaws 有权
标题翻译：灵活的手持式MR扫描阵列用于裂纹/缺陷
公开(公告)号：US07375514B2
公开(公告)日：2008-05-20
申请号：US11163834
申请日：2005-11-01
申请人： Raymond D. Rempt , George A. Perry
发明人： Raymond D. Rempt , George A. Perry
IPC分类号： G01N27/82
CPC分类号： G01N27/904
摘要： A non-destructive testing device has an excitation coil with a plurality of conductor ribbons attached to a flexible membrane. A frame supports the membrane and incorporates wheels for translation across a surface to be inspected and resilient suspension for maintaining the membrane with the excitation coil and wheels in intimate contact with the surface, the membrane flexing to maintain contact with a smoothly curved surface as found in aircraft structures. A magnetoresitive (MR) array is supported within the frame inserted in the membrane to be in close proximity to the surface. The MR array detects the magnetic field resulting from the eddy currents created by the excitation coil for identification of cracks or features beneath the surface under inspection.
摘要翻译：无损检测装置具有激励线圈，其具有连接到柔性膜的多个导体带。框架支撑膜并且包括用于在待检查的表面上平移的轮子和用于保持膜与激励线圈和轮子与表面紧密接触的弹性悬挂，膜挠曲以保持与平滑弯曲的表面的接触，如飞机结构。磁片（MR）阵列被支撑在插入膜中的框架中以紧邻表面。 MR阵列检测由励磁线圈产生的涡流产生的磁场，用于识别检查下的表面下方的裂纹或特征。

10. 发明授权

US5102516A Method for producing a monatomic beam of ground-state atoms 失效
标题翻译：用于制造基态原子的单原子束的方法
公开(公告)号：US5102516A
公开(公告)日：1992-04-07
申请号：US587280
申请日：1990-09-18
申请人： Raymond D. Rempt
发明人： Raymond D. Rempt
IPC分类号： H05H3/02
CPC分类号： H05H3/02
摘要： An electron beam is directed into a first region containing gaseous molecules which capture electrons from the beam and then dissociate to produce negative ions. The ions are accelerated to the desired energy electrostatically and drawn to a second region where they are exposed to an intra-cavity laser beam which traverses their path. The laser is chosen to have a wevelength which will cause photodetachment of electrons to form neutral atoms. Simultaneously with the above, the electron beam and ions are collimated with a magnetic field. The neutral atoms are separated from any remaining ions or electrons by a repelling electrical potential provided by a repeller plate or the like.
摘要翻译：电子束被引导到含有气体分子的第一区域中，该区域从光束中捕获电子，然后解离以产生负离子。离子被静电加速到所需的能量并且被拉到第二区域，在那里它们暴露于穿过其路径的腔内激光束。选择激光具有将导致电子的光吸收形成中性原子的长度。与此同时，电子束和离子用磁场准直。通过由推斥板等提供的排斥电位将中性原子与任何剩余的离子或电子分离。

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