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1.发明授权On board inert gas generation system with rotary positive displacement compressor 有权带有旋转容积式压缩机的惰性气体发生系统公开(公告)号:US09346555B2
公开(公告)日:2016-05-24
申请号:US13991930
申请日:2011-11-29
申请人: Alan Massey
发明人: Alan Massey
CPC分类号: B64D37/32 , A62C3/08 , A62C99/0018 , B64D13/08 , B64D37/24 , F02C7/25 , F04C18/16 , Y02T50/56
摘要: An on board inert gas generation system receives cabin air, or air from another relatively low pressure source, passing a portion thereof through an energy recovery turbine to ambient to extract power which is used to provide all, or part of, the energy required to drive a positive displacement compressor to compress another portion of cabin air to increase the pressure thereof to be suitable for supply to an air separation module.
摘要翻译: 船上惰性气体发生系统接收舱室空气或来自另一相对较低压力源的空气,将其一部分通过能量回收涡轮传递至环境以提取功率,该功率用于提供驱动所需的能量的全部或部分能量 容积式压缩机,用于压缩机舱空气的另一部分,以增加其压力以适于供应到空气分离模块。
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2.发明授权Method and apparatus for automated application of hardfacing material to rolling cutters of hybrid-type earth boring drill bits, hybrid drill bits comprising such hardfaced steel-toothed cutting elements, and methods of use thereof 失效将表面硬化材料自动应用于混合型镗孔钻头的轧制切割机的方法和装置,包括这种硬质钢齿切割元件的混合钻头及其使用方法公开(公告)号:US08471182B2
公开(公告)日:2013-06-25
申请号:US12651113
申请日:2009-12-31
申请人: Bruce Stauffer , David Luce , Alan Massey , Kenneth Gilmore , Keith Nehring
发明人: Bruce Stauffer , David Luce , Alan Massey , Kenneth Gilmore , Keith Nehring
IPC分类号: B23K13/01
CPC分类号: H05H1/42 , B23K9/044 , B23K10/027 , H05H1/3405 , H05H2001/3421 , H05H2001/3426 , H05H2001/3457
摘要: The present invention relates to a system and method for automated or “robotic” application of hardfacing to the surface of a steel-toothed cutter of a standard earth-boring rock bit or a hybrid-type rock bit. In particular, the system incorporates a grounded adapter plate and chuck mounted to a robotic arm for grasping and manipulating a rock bit cutter, particularly a hybrid rock bit cutter, beneath an electrical or photonic energy welding source, such as a plasma arc welding torch manipulated by a positioner. In this configuration, the torch is positioned substantially vertically and oscillated along a horizontal axis as the cutter is manipulated relative along a target path for the distribution of hardfacing. Moving the cutter beneath the torch allows more areas of more teeth to be overlayed, and allows superior placement for operational feedback, such as automatic positioning and parameter correction. In the preferred embodiment, sensors provide data to the control system for identification, positioning, welding program selection, and welding program correction. The control system, aided by data from the sensors, manipulates the robotically held cutter while controlling the operation and oscillation of the torch. These systems and methods can be applied to hardfacing steel teeth of the rolling cutters of both standard tri-cone or di-cone type rolling cone bits, as well as to hybrid-type earth boring drill bits.
摘要翻译: 本发明涉及一种用于自动或“机器人”应用硬表面到标准镗孔岩石钻头或混合型岩石钻头的钢齿切割机表面的系统和方法。 特别地,该系统包括安装到机器人手臂上的接地适配器板和卡盘,用于在电或光子能量焊接源(例如等离子体电弧焊炬操作)下方抓握和操纵岩石钻头刀具,特别是混合岩石钻头刀具 由定位器 在这种配置中,当切割器相对于目标路径被操纵以便分配表面硬化时,手电筒基本垂直地定位并且沿着水平轴线摆动。 在割炬下方移动切割刀允许更多的牙齿区域被覆盖,并且允许优异的布置用于操作反馈,例如自动定位和参数校正。 在优选实施例中,传感器向控制系统提供用于识别,定位,焊接程序选择和焊接程序校正的数据。 控制系统由传感器的数据辅助,在控制手电筒的操作和振荡的同时,操纵机器手柄。 这些系统和方法可以应用于标准三锥体或二锥形滚动锥形钻头的滚切机的硬化钢齿以及混合型镗孔钻头。
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公开(公告)号:US07971828B2
公开(公告)日:2011-07-05
申请号:US10590716
申请日:2005-02-28
申请人: Alan Massey , John Wood , Dominic Ashton
发明人: Alan Massey , John Wood , Dominic Ashton
IPC分类号: B64D37/32
CPC分类号: A62C3/08 , A62B7/14 , A62C3/065 , B64D37/32 , Y10T137/0396
摘要: An inerting system for an aircraft fuel tank (10) uses an air separation device (12) to produce a supply of nitrogen-enriched air to replenish the fuel tank on consumption of fuel and to maintain the pressure difference across the walls of the tank (10) below design limits. The air separation device (12) provides substantially the whole of the mass of the gas required and so there is substantially no inward venting. This provides a substantially homogenous nitrogen content in the air in the tank (10).
摘要翻译: 用于飞机燃料箱(10)的惰化系统使用空气分离装置(12)来产生富氮空气的供应,以在消耗燃料时补充燃料箱并且保持跨越罐的壁的压力差( 10)设计限制以下。 空气分离装置(12)基本上提供了所需气体的整体质量,因此基本上没有向内排气。 这在罐(10)中的空气中提供基本均匀的氮含量。
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公开(公告)号:US20080066581A1
公开(公告)日:2008-03-20
申请号:US11947613
申请日:2007-11-29
申请人: Anton Zahradnik , Eric Sullivan , R. Smith , Daniel Ruff , Danielle Roberts , Alan Massey
发明人: Anton Zahradnik , Eric Sullivan , R. Smith , Daniel Ruff , Danielle Roberts , Alan Massey
摘要: A shank configuration for rotary drill bits, is disclosed for positioning of the shank in relation to the bit body. A tapered surface or feature of the shank may be configured and sized to matingly engage a complementarily shaped surface or feature of the drill bit body and thereby become centered or positioned in relation thereto. A deformable element may be disposed between the shank and bit body. Also, the shank may comprise a material having a carbon equivalent of less than about 0.35%. A multi-pass weld procedure may be employed to affix the shank and bit body to one another wherein welds may be formed so that one weld originates at a circumferential position that differs from the origination circumferential position of its immediately preceding weld by at least about 90°. Further, a stress state may be developed within the multi-pass weld. A method of manufacture is also disclosed.
摘要翻译: 公开了一种用于旋转钻头的柄构造,用于相对于钻头体定位柄。 柄的锥形表面或特征可以被构造和定尺寸成匹配地接合钻头体的互补成形的表面或特征,从而相对于钻头体中心或定位。 可变形元件可以设置在柄和钻头体之间。 另外,柄可以包含碳当量小于约0.35%的材料。 可以采用多通焊接方法将柄和钻头体彼此固定,其中可以形成焊缝,使得一个焊缝起始于不同于其紧接在前的焊缝的起始圆周位置的周向位置至少约90° °。 此外,可以在多遍焊缝内形成应力状态。 还公开了一种制造方法。
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5.发明申请Rotary drill bit shank, rotary drill bits so equipped, and methods of manufacture 有权旋转钻头柄,旋转钻头如此配备,以及制造方法公开(公告)号:US20060213693A1
公开(公告)日:2006-09-28
申请号:US11090932
申请日:2005-03-25
申请人: Anton Zahradnik , Eric Sullivan , R. Smith , Daniel Ruff , Danielle Roberts , Alan Massey
发明人: Anton Zahradnik , Eric Sullivan , R. Smith , Daniel Ruff , Danielle Roberts , Alan Massey
IPC分类号: E21B10/36
摘要: A shank configuration for rotary drill bits, is disclosed for positioning of the shank in relation to the bit body. A tapered surface or feature of the shank may be configured and sized to matingly engage a complementarily shaped surface or feature of the drill bit body and thereby become centered or positioned in relation thereto. A deformable element may be disposed between the shank and bit body. Also, the shank may comprise a material having a carbon equivalent of less than about 0.35%. A multi-pass weld procedure may be employed to affix the shank and bit body to one another wherein welds may be formed so that one weld originates at a circumferential position that differs from the origination circumferential position of its immediately preceding weld by at least about 90°. Further, a stress state may be developed within the multi-pass weld. A method of manufacture is also disclosed.
摘要翻译: 公开了一种用于旋转钻头的柄构造,用于相对于钻头体定位柄。 柄的锥形表面或特征可以被构造和定尺寸成匹配地接合钻头体的互补成形的表面或特征,从而相对于钻头体中心或定位。 可变形元件可以设置在柄和钻头体之间。 另外,柄可以包含碳当量小于约0.35%的材料。 可以采用多通焊接方法将柄和钻头体彼此固定,其中可以形成焊缝,使得一个焊缝起始于不同于其紧接在前的焊缝的起始圆周位置的周向位置至少约90° °。 此外,可以在多遍焊缝内形成应力状态。 还公开了一种制造方法。
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公开(公告)号:US20130294950A1
公开(公告)日:2013-11-07
申请号:US13991930
申请日:2011-11-29
申请人: Alan Massey
发明人: Alan Massey
IPC分类号: F04C13/00
CPC分类号: B64D37/32 , A62C3/08 , A62C99/0018 , B64D13/08 , B64D37/24 , F02C7/25 , F04C18/16 , Y02T50/56
摘要: An on board inert gas generation system receives cabin air, or air from another relatively low pressure source, passing a portion thereof through an energy recovery turbine to ambient to extract power which is used to provide all, or part of the energy required to drive a positive displacement compressor to co press another portion of cabin air to increase the pressure thereof to be suitable for supply to an air separation module.
摘要翻译: 机载惰性气体发生系统接收舱室空气或来自另一相对较低压力源的空气,将其一部分通过能量回收涡轮传递到环境以提取功率,其用于提供驱动所需能量所需的全部或部分能量 正排量压缩机以共同推动机舱空气的另一部分以增加其压力以适于供应到空气分离模块。
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7.发明申请公开(公告)号:US20100181292A1
公开(公告)日:2010-07-22
申请号:US12651113
申请日:2009-12-31
申请人: Bruce STAUFFER , David LUCE , Alan MASSEY , Kenneth GILMORE , Keith NEHRING
发明人: Bruce STAUFFER , David LUCE , Alan MASSEY , Kenneth GILMORE , Keith NEHRING
CPC分类号: H05H1/42 , B23K9/044 , B23K10/027 , H05H1/3405 , H05H2001/3421 , H05H2001/3426 , H05H2001/3457
摘要: The present invention relates to a system and method for automated or “robotic” application of hardfacing to the surface of a steel-toothed cutter of a standard earth-boring rock bit or a hybrid-type rock bit. In particular, the system incorporates a grounded adapter plate and chuck mounted to a robotic arm for grasping and manipulating a rock bit cutter, particularly a hybrid rock bit cutter, beneath an electrical or photonic energy welding source, such as a plasma arc welding torch manipulated by a positioner. In this configuration, the torch is positioned substantially vertically and oscillated along a horizontal axis as the cutter is manipulated relative along a target path for the distribution of hardfacing. Moving the cutter beneath the torch allows more areas of more teeth to be overlayed, and allows superior placement for operational feedback, such as automatic positioning and parameter correction. In the preferred embodiment, sensors provide data to the control system for identification, positioning, welding program selection, and welding program correction. The control system, aided by data from the sensors, manipulates the robotically held cutter while controlling the operation and oscillation of the torch. These systems and methods can be applied to hardfacing steel teeth of the rolling cutters of both standard tri-cone or di-cone type rolling cone bits, as well as to hybrid-type earth boring drill bits.
摘要翻译: 本发明涉及一种用于自动或“机器人”应用硬表面到标准镗孔岩石钻头或混合型岩石钻头的钢齿切割机表面的系统和方法。 特别地,该系统包括安装到机器人手臂上的接地适配器板和卡盘,用于在电或光子能量焊接源(例如等离子体电弧焊炬操作)下方抓握和操纵岩石钻头刀具,特别是混合岩石钻头刀具 由定位器 在这种配置中,当切割器相对于目标路径被操纵以便分配表面硬化时,手电筒基本垂直地定位并且沿着水平轴线摆动。 在割炬下方移动切割刀允许更多的牙齿区域被覆盖,并且允许优异的布置用于操作反馈,例如自动定位和参数校正。 在优选实施例中,传感器向控制系统提供用于识别,定位,焊接程序选择和焊接程序校正的数据。 控制系统由传感器的数据辅助,在控制手电筒的操作和振荡的同时,操纵机器手柄。 这些系统和方法可以应用于标准三锥体或二锥形滚动锥形钻头的滚切机的硬化钢齿以及混合型镗孔钻头。
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公开(公告)号:US20080066970A1
公开(公告)日:2008-03-20
申请号:US11947624
申请日:2007-11-29
申请人: Anton Zahradnik , Eric Sullivan , R. Smith , Daniel Ruff , Danielle Roberts , Alan Massey
发明人: Anton Zahradnik , Eric Sullivan , R. Smith , Daniel Ruff , Danielle Roberts , Alan Massey
IPC分类号: E21B3/00
摘要: A shank configuration for rotary drill bits, is disclosed for positioning of the shank in relation to the bit body. A tapered surface or feature of the shank may be configured and sized to matingly engage a complementarily shaped surface or feature of the drill bit body and thereby become centered or positioned in relation thereto. A deformable element may be disposed between the shank and bit body. Also, the shank may comprise a material having a carbon equivalent of less than about 0.35%. A multi-pass weld procedure may be employed to affix the shank and bit body to one another wherein welds may be formed so that one weld originates at a circumferential position that differs from the origination circumferential position of its immediately preceding weld by at least about 90°. Further, a stress state may be developed within the multi-pass weld. A method of manufacture is also disclosed.
摘要翻译: 公开了一种用于旋转钻头的柄构造,用于相对于钻头体定位柄。 柄的锥形表面或特征可以被构造和定尺寸成匹配地接合钻头体的互补成形的表面或特征,从而相对于钻头体中心或定位。 可变形元件可以设置在柄和钻头体之间。 另外,柄可以包含碳当量小于约0.35%的材料。 可以采用多通焊接方法将柄和钻头体彼此固定,其中可以形成焊缝,使得一个焊缝起始于不同于其紧接在前的焊缝的起始圆周位置的周向位置至少约90° °。 此外,可以在多遍焊缝内形成应力状态。 还公开了一种制造方法。
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公开(公告)号:US20080017248A1
公开(公告)日:2008-01-24
申请号:US10590716
申请日:2005-02-28
申请人: Alan Massey , John Wood , Dominic Ashton
发明人: Alan Massey , John Wood , Dominic Ashton
IPC分类号: B64D37/04
CPC分类号: A62C3/08 , A62B7/14 , A62C3/065 , B64D37/32 , Y10T137/0396
摘要: An inerting system for an aircraft fuel tank (10) uses an air separation device (12) to produce a supply of nitrogen-enriched air to replenish the fuel tank on consumption of fuel and to maintain the pressure difference across the walls of the tank (10) below design limits. The air separation device (12) provides substantially the whole of the mass of the gas required and so there is substantially no inward venting. This provides a substantially homogenous nitrogen content in the air in the tank (10).
摘要翻译: 用于飞机燃料箱(10)的惰化系统使用空气分离装置(12)来产生富氮空气的供应,以在消耗燃料时补充燃料箱并且保持跨越罐的壁的压力差( 10)设计限制以下。 空气分离装置(12)基本上提供了所需气体的整体质量,因此基本上没有向内排气。 这在罐(10)中的空气中提供基本均匀的氮含量。
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