公开(公告)号：USD852331S1

公开(公告)日：2019-06-25

申请号：US29673671

申请日：2018-12-17

Applicant: Mark Burton

Designer： Mark Burton

公开(公告)号：US09289870B2

公开(公告)日：2016-03-22

申请号：US14005533

申请日：2012-03-13

Applicant: Mark Burton

Inventor： Mark Burton

IPC: B23Q5/00 ,  B23Q5/32 ,  B23B47/00 ,  F16L41/04 ,  B23Q5/06

CPC classification number: B23Q5/326 ,  B23B47/00 ,  B23Q5/06 ,  B23Q2005/005 ,  F16L41/04 ,  Y10T408/03 ,  Y10T408/21 ,  Y10T408/375 ,  Y10T408/68 ,  Y10T408/73

Abstract: A boring apparatus, such as a drilling apparatus for forming holes in pressurized pipes, comprises a cutting head (5) mounted to a distal end of a boring bar (2) which is itself connected to a feed screw (3) by a feed nut so that relative rotation between the boring bar (2) and the feed screw (3) cause the cutting head (5) and boring bar (2) to traverse axially along the feed screw (3) while the cutting head (5) is rotated for cutting. The apparatus has a main drive motor arranged to drive the cutting head (5), boring bar (2) and a main drive shaft (4). The main drive shaft (4) and the feed screw (3) are operably connected at the proximal end through a pair of adjacent coaxial planetary gear assemblie (6) whose planetary gear carriers are liked to rotate in unison about the axis. An independent, primary feed drive motor is geared to a planetary gear ring (20) and is operable to provide a difference in rotation velocities between the feed screw (3) and boring bar (2) whereby the movement of the cutting head (5) and boring bar (2) to and from along the axis may be controlled.

Abstract translation: 诸如用于在加压管中形成孔的钻孔装置的钻孔装置包括安装到镗杆（2）的远端的切割头（5），该钻头本身通过进给螺母连接到进给螺杆（3） 使得镗杆（2）和进给螺杆（3）之间的相对旋转使得切割头（5）和镗杆（2）沿切削头（5）旋转时沿进给螺杆（3）轴向移动 用于切割。 该装置具有驱动切割头（5），镗杆（2）和主驱动轴（4）的主驱动马达。 主驱动轴（4）和进给螺杆（3）通过一对相邻的同轴行星齿轮组件（6）在近端可操作地连接，其行星齿轮架希望围绕轴线一致地旋转。 独立的主进给驱动马达适用于行星齿轮环（20），并且可操作以提供进给螺杆（3）和钻杆（2）之间的旋转速度差，由此切割头（5）的运动， 并且可以控制镗杆（2）沿着轴线和从其移动。

公开(公告)号：US20140321932A1

公开(公告)日：2014-10-30

申请号：US14005533

申请日：2012-03-13

Applicant: Mark Burton

Inventor： Mark Burton

IPC: B23Q5/32 ,  F16L41/04 ,  B23B47/00

CPC classification number: B23Q5/326 ,  B23B47/00 ,  B23Q5/06 ,  B23Q2005/005 ,  F16L41/04 ,  Y10T408/03 ,  Y10T408/21 ,  Y10T408/375 ,  Y10T408/68 ,  Y10T408/73

Abstract: A boring apparatus, such as a drilling apparatus for forming holes in pressurised pipes, comprises a cutting head (5) mounted to a distal end of a boring bar (2) which is itself connected to a feed screw (3) by a feed nut so that relative rotation between the boring bar (2) and the feed screw (3) cause the cutting head (5) and boring bar (2) to traverse axially along the feed screw (3) whilst the cutting head (5) is rotated for cutting. The apparatus has a main drive motor arranged to drive the cutting head (5), boring bar (2) and a main drive shaft (4). The main drive shaft (4) and the feed screw (3) are operably connected at the proximal end through a pair of adjacent coaxial planetary gear assemblie (6) whose planetary gear carriers are liked to rotate in unison about the axis. An independent, primary feed drive motor is geared to a planetary gear ring (20) and is operable to provide a difference in rotation velocities between the feed screw (3) and boring bar (2) whereby the movement of the cutting head (5) and boring bar (2) to and from along the axis may be controlled.

Abstract translation: 诸如用于在加压管中形成孔的钻孔装置的钻孔装置包括安装到镗杆（2）的远端的切割头（5），该钻头本身通过进给螺母连接到进给螺杆（3） 使得镗杆（2）和进给螺杆（3）之间的相对旋转使得切割头（5）和镗杆（2）沿着进给螺杆（3）轴向地横移，同时切割头（5）旋转 用于切割。 该装置具有驱动切割头（5），镗杆（2）和主驱动轴（4）的主驱动马达。 主驱动轴（4）和进给螺杆（3）通过一对相邻的同轴行星齿轮组件（6）在近端可操作地连接，其行星齿轮架希望围绕轴线一致地旋转。 独立的主进给驱动马达适用于行星齿轮环（20），并且可操作以提供进给螺杆（3）和钻杆（2）之间的旋转速度差，由此切割头（5）的运动， 并且可以控制镗杆（2）沿着轴线和从其移动。

公开(公告)号：US20130248037A1

公开(公告)日：2013-09-26

申请号：US13988991

申请日：2011-11-16

Applicant: Mark Burton ,  Adam Thistlethwaite ,  Craig Todd ,  Alex Butler

Inventor： Mark Burton ,  Adam Thistlethwaite ,  Craig Todd ,  Alex Butler

IPC: F16L55/11 ,  F16L55/115

CPC classification number: F16L55/11 ,  F16L55/115

Abstract: A closure assembly for terminating an end of a pipe (4) has an end-cap (4) holding and having fluid-tight connection to a mutually coaxial cylindrical plug (2) and circular collar (3). The plug (2) and the collar (3) are configurable between respective engaged and disengaged configurations and mutually spaced to provide an annular space therebetween when the plug (2) and collar (3) are in their disengaged configurations. The annular space is arranged to receive an end of a pipe (1) arranged coaxially with the plug (2) and collar (3), the plug (2) and collar (3) being respectively slidable into and over the end of the pipe (1). The plug (2), when in its engaged configuration, grips the inner face of said pipe (41) and to provide a fluid tight seal and the collar (3), when in its engaged configuration, grips the outer face of the pipe (1) and to provide a fluid tight seal.

Abstract translation: 用于端接管（4）的端部的封闭组件具有保持并具有与相互同轴的圆柱塞（2）和圆环（3）的流体密封连接的端盖（4）。 插头（2）和套环（3）可配置在相应的接合和分离构造之间，并且当插头（2）和套环（3）处于其分离构造时，它们之间相互间隔开，以提供它们之间的环形空间。 环形空间被布置成接收与塞子（2）和轴环（3）同轴布置的管道（1）的端部，塞子（2）和轴环（3）可分别滑入管道的端部和上方 （1）。 当塞子（2）处于其接合构型时，握住所述管道（41）的内表面并提供流体密封密封件，并且当处于其接合构造时，所述塞子（3）夹住所述管道（41）的外表面 1）并提供流体密封。

公开(公告)号：US06637006B1

公开(公告)日：2003-10-21

申请号：US09521450

申请日：2000-03-07

Applicant: Mark Burton

Inventor： Mark Burton

IPC: G06F1100

CPC classification number: H04L1/0054 ,  H04L1/0059 ,  H04L1/007 ,  H04L1/201 ,  H04L1/203

Abstract: A received frame is provided to a first decoder and a first time reverse unit. The first decoder decodes the provided frame and outputs the decoded frame. The first time reverse unit reverses bits of the provided frame in time direction and outputs the time reversed frame. The time reversed frame is provided to a second decoder. The second decoder decodes the time reversed frame. This decoded frame is then provided to a second time reverse unit. The second time reverse unit reverses bits of the decoded frame in time direction and outputs the frame. The frame is outputted from the first decoder is compared with the frame is outputted from the second time reverse unit by comparator. If any difference exist between the two frames then the received frame is judged as unreliable.

Abstract translation: 接收的帧被提供给第一解码器和第一时间反向单元。 第一解码器解码提供的帧并输出解码的帧。 第一次反转单元在时间方向反转所提供的帧的位，并输出时间反转帧。 将时间反转帧提供给第二解码器。 第二个解码器解码时间反转帧。 然后将该解码帧提供给第二时间反向单元。 第二次反转单元在时间方向上反转解码帧的位并输出帧。 将从第一解码器输出的帧与比较器从第二时间反向单元输出帧进行比较。 如果两帧之间存在任何差异，则接收的帧被判定为不可靠。

公开(公告)号：USD844115S1

公开(公告)日：2019-03-26

申请号：US29601952

申请日：2017-04-27

Applicant: Mark Burton

Designer： Mark Burton

公开(公告)号：US09303806B2

公开(公告)日：2016-04-05

申请号：US13988991

申请日：2011-11-16

Applicant: Mark Burton ,  Adam Thistlethwaite ,  Craig Todd ,  Alex Butler

Inventor： Mark Burton ,  Adam Thistlethwaite ,  Craig Todd ,  Alex Butler

IPC: F16L55/10 ,  F16L55/11 ,  F16L55/115

CPC classification number: F16L55/11 ,  F16L55/115

Abstract: A closure assembly for terminating an end of a pipe (4) has an end-cap (4) holding and having fluid-tight connection to a mutually coaxial cylindrical plug (2) and circular collar (3). The plug (2) and the collar (3) are configurable between respective engaged and disengaged configurations and mutually spaced to provide an annular space therebetween when the plug (2) and collar (3) are in their disengaged configurations. The annular space is arranged to receive an end of a pipe (1) arranged coaxially with the plug (2) and collar (3), the plug (2) and collar (3) being respectively slidable into and over the end of the pipe (1). The plug (2), when in its engaged configuration, grips the inner face of said pipe (41) and to provide a fluid tight seal and the collar (3), when in its engaged configuration, grips the outer face of the pipe (1) and to provide a fluid tight seal.

Abstract translation: 用于端接管（4）的端部的封闭组件具有保持并具有与相互同轴的圆柱塞（2）和圆环（3）的流体密封连接的端帽（4）。 插头（2）和套环（3）可配置在相应的接合和分离构造之间，并且当插头（2）和套环（3）处于其分离构造时，它们之间相互间隔开，以提供它们之间的环形空间。 环形空间被布置成接收与塞子（2）和轴环（3）同轴布置的管道（1）的端部，塞子（2）和轴环（3）可分别滑入管道的端部和上方 （1）。 当塞子（2）处于其接合构型时，握住所述管道（41）的内表面并提供流体密封密封件，并且当处于其接合构造时，所述塞子（3）夹住所述管道（41）的外表面 1）并提供流体密封。

公开(公告)号：US20130031037A1

公开(公告)日：2013-01-31

申请号：US13593037

申请日：2012-08-23

Applicant: David D. Brandt ,  Kenwood Hall ,  Mark Burton Anderson ,  Craig D. Anderson ,  George Bradford Collins

Inventor： David D. Brandt ,  Kenwood Hall ,  Mark Burton Anderson ,  Craig D. Anderson ,  George Bradford Collins

IPC: G06F15/18

CPC classification number: H04L63/1416 ,  G05B15/02 ,  G05B19/4185 ,  G05B2219/31151 ,  G05B2219/45103 ,  G06N5/047 ,  G06N99/005 ,  H04L63/1408 ,  H04L63/1425 ,  H04L63/20 ,  H04L67/12 ,  H04L67/22

Abstract: The present invention relates to a system and methodology facilitating automation security in a networked-based industrial controller environment. Various components, systems and methodologies are provided to facilitate varying levels of automation security in accordance with security analysis tools, security validation tools and/or security learning systems. The security analysis tool receives abstract factory models or descriptions for input and generates an output that can include security guidelines, components, topologies, procedures, rules, policies, and the like for deployment in an automation security network. The validation tools are operative in the automation security network, wherein the tools perform security checking and/or auditing functions, for example, to determine if security components are in place and/or in suitable working order. The security learning system monitors/learns network traffic patterns during a learning phase, fires alarms or events based upon detected deviations from the learned patterns, and/or causes other automated actions to occur.

Abstract translation: 本发明涉及促进基于网络的工业控制器环境中的自动化安全性的系统和方法。 提供了各种组件，系统和方法，以根据安全分析工具，安全验证工具和/或安全学习系统来促进不同级别的自动化安全性。 安全分析工具接收抽象工厂模型或输入描述，并生成一个输出，其中可以包括在自动化安全网络中部署的安全指南，组件，拓扑，过程，规则，策略等。 验证工具在自动化安全网络中可操作，其中这些工具执行安全检查和/或审核功能，例如，以确定安全组件是否到位和/或以合适的工作顺序。 安全学习系统在学习阶段监视/学习网络流量模式，基于检测到的与学习模式的偏差来触发警报或事件，和/或导致其他自动化动作发生。

公开(公告)号：US09009084B2

公开(公告)日：2015-04-14

申请号：US13593037

申请日：2012-08-23

Applicant: David D. Brandt ,  Kenwood Hall ,  Mark Burton Anderson ,  Craig D. Anderson ,  George Bradford Collins

Inventor： David D. Brandt ,  Kenwood Hall ,  Mark Burton Anderson ,  Craig D. Anderson ,  George Bradford Collins

IPC: G06F15/18 ,  H04L29/06 ,  H04L29/08

CPC classification number: H04L63/1416 ,  G05B15/02 ,  G05B19/4185 ,  G05B2219/31151 ,  G05B2219/45103 ,  G06N5/047 ,  G06N99/005 ,  H04L63/1408 ,  H04L63/1425 ,  H04L63/20 ,  H04L67/12 ,  H04L67/22

Abstract: The present invention relates to a system and methodology facilitating automation security in a networked-based industrial controller environment. Various components, systems and methodologies are provided to facilitate varying levels of automation security in accordance with security analysis tools, security validation tools and/or security learning systems. The security analysis tool receives abstract factory models or descriptions for input and generates an output that can include security guidelines, components, topologies, procedures, rules, policies, and the like for deployment in an automation security network. The validation tools are operative in the automation security network, wherein the tools perform security checking and/or auditing functions, for example, to determine if security components are in place and/or in suitable working order. The security learning system monitors/learns network traffic patterns during a learning phase, fires alarms or events based upon detected deviations from the learned patterns, and/or causes other automated actions to occur.

Abstract translation: 本发明涉及促进基于网络的工业控制器环境中的自动化安全性的系统和方法。 提供了各种组件，系统和方法，以根据安全分析工具，安全验证工具和/或安全学习系统来促进不同级别的自动化安全性。 安全分析工具接收抽象工厂模型或输入描述，并生成一个输出，其中可以包括在自动化安全网络中部署的安全指南，组件，拓扑，过程，规则，策略等。 验证工具在自动化安全网络中可操作，其中这些工具执行安全检查和/或审核功能，例如，以确定安全组件是否到位和/或以合适的工作顺序。 安全学习系统在学习阶段监视/学习网络流量模式，基于检测到的与学习模式的偏差来触发警报或事件，和/或导致其他自动化动作发生。

公开(公告)号：US07490030B2

公开(公告)日：2009-02-10

申请号：US10286914

申请日：2002-11-04

Applicant: John Mark Burton ,  Syed Samin Ishtiaq

Inventor： John Mark Burton ,  Syed Samin Ishtiaq

IPC: G06F17/50

CPC classification number: G06F17/5022 ,  G06F2217/78

Abstract: Stimulation signals (22) are applied to a first circuit model (20) and the power behaviour of the circuit being modelled is determined from the behaviour of the first circuit model (20). In parallel, the same stimulation signals (22) are applied to a second circuit model (26) and the state variable changes within that second circuit model are calculated. The calculated power behaviour and the calculated state variable changes are then applied as training data inputs to a self learning power model, such as a neural network (28), which learns the relationship between state variable changes between the second model (26) and power behaviour of the circuit being simulated. In this way, a detailed first circuit model (20) may be used to calculate power behaviour and to train a separate power model (28, 30) which once trained can be publicly released without having to release sensitive information within the first circuit model (20).

Abstract translation: 刺激信号（22）被施加到第一电路模型（20），并且根据第一电路模型（20）的行为确定正在建模的电路的功率特性。 并行地，将相同的刺激信号（22）施加到第二电路模型（26），并且计算该第二电路模型内的状态变量。 然后将计算的功率行为和计算的状态变量变化作为训练数据输入应用于自学习能力模型，例如神经网络（28），其学习第二模型（26）和功率之间的状态变化之间的关系 正在模拟电路的行为。 以这种方式，可以使用详细的第一电路模型（20）来计算功率行为并训练单独的功率模型（28,30），其一旦被训练可以被公开地释放，而不必在第一电路模型中释放敏感信息（ 20）。