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71. 发明申请

US20150205289A1 GENERATING OPTIMIZED TOOL PATHS AND MACHINE COMMANDS FOR BEAM CUTTING TOOLS 有权
公开(公告)号：US20150205289A1
公开(公告)日：2015-07-23
申请号：US14333466
申请日：2014-07-16
申请人： OMAX Corporation
发明人： Axel H. Henning
IPC分类号： G05B19/4097
CPC分类号： G05B19/4097 , B24C1/045 , G05B19/4145 , G05B2219/45036 , G06F17/5009 , Y02P90/265
摘要： A facility for automated modelling of the cutting process for a particular material to be cut by a beam cutting tool, such as a waterjet cutting system, from empirical data to predict aspects of the waterjet's effect on the workpiece across a range of material thicknesses, across a range of cutting geometries, and across a range of cutting quality levels, all of which may be broader than, and independent of the actual requirements for a target workpiece, is described.

72. 发明申请

US20140336827A1 ADAPTIVE CONTROL SYSTEM 审中-公开
标题翻译：自适应控制系统
公开(公告)号：US20140336827A1
公开(公告)日：2014-11-13
申请号：US14204265
申请日：2014-03-11
申请人： TERYDON, INC.
发明人： Terry D. Gromes, SR. , Terry D. Gromes, JR. , Jon M. Shockey, JR. , William C. Jackson
IPC分类号： G05D7/06
CPC分类号： B24C7/0015 , B26D5/00 , B26D7/22 , B26F3/004 , G05B9/02 , G05B19/406 , G05B2219/39447 , G05B2219/45036 , G05D7/0617 , G05D7/0676 , G06F3/01 , G06F3/04886
摘要： The present invention provides a system and method for wirelessly controlling an operating device by way of a wireless connection between the operating device and a computing device. The computing device provides an interface for controlling the operating device via a control unit which is removably connected to the operating device. The control unit and the computing device communicate wirelessly allowing a user to move about freely while still controlling operating device. Control unit may include at least one valve for use in controlling the operating device.
摘要翻译：本发明提供一种用于通过操作设备和计算设备之间的无线连接无线地控制操作设备的系统和方法。计算设备提供了一个用于通过可拆卸地连接到操作设备的控制单元来控制操作设备的接口。控制单元和计算设备以无线方式进行通信，允许用户在仍然控制操作设备的同时自由移动。控制单元可以包括用于控制操作装置的至少一个阀。

73. 发明申请

US20060149410A1 Method and system for automated software control of waterjet orientation parameters 审中-公开
公开(公告)号：US20060149410A1
公开(公告)日：2006-07-06
申请号：US11208043
申请日：2005-08-18
申请人： Glenn Erichsen , Jiannan Zhou , Mira Sahney , Michael Knaupp , Charles Burnham , Mohamed Hashish
发明人： Glenn Erichsen , Jiannan Zhou , Mira Sahney , Michael Knaupp , Charles Burnham , Mohamed Hashish
IPC分类号： G06F19/00
CPC分类号： G05B19/4099 , B24C1/045 , B26D5/00 , B26F3/004 , G05B2219/45036 , G05B2219/49012 , Y02P90/265 , Y10T83/141 , Y10T83/364
摘要： Methods and systems for automating the control of fluid jet orientation parameters are provided. Example embodiments provide a Dynamic Waterjet Control System (a “DWCS”) to dynamically control the orientation of the jet relative to the material being cut as a function of speed and other process parameters. Orientation parameters include, for example, the x-y position of the jet along the cutting path, as well as three dimensional orientation parameters of the jet, such as standoff compensation values and taper and lead angles of the cutting head. In one embodiment, the DWCS uses a set of predictive models to determine these orientation parameters. The DWCS preferably comprises a motion program generator/kernel, a user interface, one or more replaceable orientation and process models, and a communications interface to a fluid jet apparatus controller. Optionally the DWCS also includes a CAD module for designing the target piece. In operation, the motion program generator receives input from the CAD design module and the user interface to build a motion program that can be forwarded to and executed by the controller to control the cutting process. The replaceable models provide the motion program generator with access to sets of mathematical models that are used to determine appropriate jet orientation and process parameters. For example, in some environments, these equations are used to generate the x-position, y-position, standoff compensation value, lead angle, and taper angle of each command. The DWCS also provides two way communication between itself and the controller. The controller functions are used, for example, to display the cutting path in progress while the target piece is being cut out of the workpiece. They are also used to obtain current values of the cutting apparatus, such as the current state of attached mechanical and electrical devices.

74. 发明授权

US06996452B2 Method and system for automated software control of waterjet orientation parameters 有权
标题翻译：水枪定向参数自动化软件控制方法与系统
公开(公告)号：US06996452B2
公开(公告)日：2006-02-07
申请号：US10793333
申请日：2004-03-04
申请人： Glenn A. Erichsen , Jiannan Zhou , Mira K. Sahney , Michael Knaupp , Charles D. Burnham , Mohamed A. Hashish
发明人： Glenn A. Erichsen , Jiannan Zhou , Mira K. Sahney , Michael Knaupp , Charles D. Burnham , Mohamed A. Hashish
IPC分类号： G06F19/00
CPC分类号： G05B19/4099 , B24C1/045 , B26D5/00 , B26F3/004 , G05B2219/45036 , G05B2219/49012 , Y02P90/265 , Y10T83/141 , Y10T83/364
摘要： Methods and systems for automating the control of fluid jet orientation parameters are provided. Example embodiments provide a Dynamic Waterjet Control System (a “DWCS”) to dynamically control the orientation of the jet relative to the material being cut as a function of speed and other process parameters. Orientation parameters include, for example, the three dimensional orientation parameters of the jet, such as standoff compensation values and taper and lead angles of the cutting head. In one embodiment, the DWCS uses a set of predictive models to determine these orientation parameters. The DWCS preferably comprises a motion program generator/kernel, a user interface, one or more replaceable orientation and process models, and a communications interface to a fluid jet apparatus controller. In one embodiment the DWCS embedded in the controller and performs a “look-ahead” procedure to automatically control cutting head orientation.
摘要翻译：提供了用于自动化控制流体射流取向参数的方法和系统。示例性实施例提供了一种动态水射流控制系统（“DWCS”），以根据速度和其它过程参数来动态地控制射流相对于被切割材料的取向。取向参数包括例如喷射器的三维取向参数，例如切割头的间隙补偿值和锥度和导程角。在一个实施例中，DWCS使用一组预测模型来确定这些取向参数。 DWCS优选地包括运动程序生成器/内核，用户界面，一个或多个可替换的定向和过程模型，以及到流体喷射装置控制器的通信接口。在一个实施例中，DWCS嵌入在控制器中并执行“先行”过程以自动控制切割头取向。

75. 发明申请

US20050247457A1 Method and apparatus for manufacturing an expandable slotted tube 有权
公开(公告)号：US20050247457A1
公开(公告)日：2005-11-10
申请号：US11181294
申请日：2005-07-14
申请人： Wayne Rudd
发明人： Wayne Rudd
IPC分类号： E21B23/02 , E21B43/08 , E21B43/10 , G05B19/4093
CPC分类号： E21B43/086 , E21B43/103 , E21B43/108 , G05B19/40937 , G05B2219/45036 , G05B2219/50049 , G05B2219/50063 , Y02P90/265 , Y10T29/496 , Y10T29/49771 , Y10T29/49995 , Y10T83/051 , Y10T83/0596 , Y10T83/148 , Y10T83/485
摘要： A method of manufacturing an expandable slotted tube fabricated from at least one tubular element and at least two annular elements connected to the opposite ends of the tubular element by means of butt joints wherein axially extending slots are formed at a uniform angular spacing around the periphery of the tube and in longitudinally overlapping relation characterized by cutting said annular elements in a pattern of overlapping positionally fixed slots in accordance with invariable parameters which are pre-determined relative to the dimensions of said annular elements and cutting in said tubular element a pattern of slots that is variable in accordance with measured parameters of the tube so as to achieve the required overlap between said positionally fixed and variable slots. A machine for carrying out the method is also described.

76. 发明申请

US20040236461A1 Method and system for automated software control of waterjet orientation parameters 有权
公开(公告)号：US20040236461A1
公开(公告)日：2004-11-25
申请号：US10793333
申请日：2004-03-04
申请人： Flow International Corporation
发明人： Glenn A. Erichsen , Jiannan Zhou , Mira K. Sahney , Michael Knaupp , Charles D. Burnham , Mohamed A. Hashish
IPC分类号： G06F019/00
CPC分类号： G05B19/4099 , B24C1/045 , B26D5/00 , B26F3/004 , G05B2219/45036 , G05B2219/49012 , Y02P90/265 , Y10T83/141 , Y10T83/364
摘要： Methods and systems for automating the control of fluid jet orientation parameters are provided. Example embodiments provide a Dynamic Waterjet Control System (a nullDWCSnull) to dynamically control the orientation of the jet relative to the material being cut as a function of speed and other process parameters. Orientation parameters include, for example, the x-y position of the jet along the cutting path, as well as three dimensional orientation parameters of the jet, such as standoff compensation values and taper and lead angles of the cutting head. In one embodiment, the DWCS uses a set of predictive models to determine these orientation parameters. The DWCS preferably comprises a motion program generator/kernel, a user interface, one or more replaceable orientation and process models, and a communications interface to a fluid jet apparatus controller. Optionally the DWCS also includes a CAD module for designing the target piece. In operation, the motion program generator receives input from the CAD design module and the user interface to build a motion program that can be forwarded to and executed by the controller to control the cutting process. The replaceable models provide the motion program generator with access to sets of mathematical models that are used to determine appropriate jet orientation and process parameters. For example, in some environments, these equations are used to generate the x-position, y-position, standoff compensation value, lead angle, and taper angle of each command. The DWCS also provides two way communication between itself and the controller. The controller functions are used, for example, to display the cutting path in progress while the target piece is being cut out of the workpiece. They are also used to obtain current values of the cutting apparatus, such as the current state of attached mechanical and electrical devices.

77. 发明授权

US06783309B2 Automatic cutting liquid supply apparatus 有权
标题翻译：自动切割液体供给装置
公开(公告)号：US06783309B2
公开(公告)日：2004-08-31
申请号：US10296372
申请日：2002-11-22
申请人： Tadashi Makiyama
发明人： Tadashi Makiyama
IPC分类号： B23C900
CPC分类号： B23Q11/1038 , G05B2219/36308 , G05B2219/45036 , Y10T408/44 , Y10T408/453 , Y10T408/458 , Y10T409/303752 , Y10T409/304032
摘要： An automatic cutting liquid supply apparatus which automatically supplies a cutting liquid to each tool of a machine tool in accordance with predetermined optimal cutting liquid supply conditions that include variations over time during operation. The optimal supply conditions of the cutting liquid supply quantity (Q) are preset for each type of tool (1) in a control device (5). The control device (5) is constructed from a main control section (5a), which mainly controls the driving of the main shaft units (2) on which the tools (1) are mounted, and an automatic supply control section (5b), which automatically controls the cutting liquid supply quantities (Q). An input signal (Vin) corresponding to the supply conditions (preset) is inputted into the variable frequency generating device (5c) from the automatic supply control section (5b). The variable frequency generating device (5c) generates an output frequency signal (F) that corresponds to the input signal (Vin) and transmits this output frequency signal (F) to the cutting liquid supply device (3). The cutting liquid supply device (3) supplies cutting liquid supply quantities (Q) that are proportional to the output frequency signal (F) to the tools (1) from the cutting liquid tank (3a) by means of the supply pump ( 3c).
摘要翻译：一种自动切割液体供应装置，其根据预定的最佳切割液体供应条件自动将切割液体提供给机床的每个工具，该条件包括在操作期间随时间推移的变化。在控制装置（5）中为每种类型的工具（1）预设切割液供给量（Q）的最佳供给条件。控制装置（5）由主控制部（5a）构成，主控制部主要控制安装有工具（1）的主轴单元（2）的驱动，以及自动供给控制部（5b）自动控制切削液供给量（Q）。与供给条件（预设）对应的输入信号（Vin）从自动供给控制部（5b）输入到变频产生装置（5c）。变频产生装置（5c）生成与输入信号（Vin）对应的输出频率信号（F），并将该输出频率信号（F）发送到切断液供给装置（3）。切割液供给装置（3）通过供给泵（3c）从切割液罐（3a）向工具（1）供给与输出频率信号（F）成比例的切削液供给量（Q）。

78. 发明申请

US20040025655A1 Method and apparatus for manufacturing an expandable slotted tube 失效
标题翻译：用于制造可扩展开槽管的方法和装置
公开(公告)号：US20040025655A1
公开(公告)日：2004-02-12
申请号：US10453740
申请日：2003-06-03
申请人： Weatherford/Lamb, Inc.
发明人： Wayne Rudd
IPC分类号： B26D001/14
CPC分类号： E21B43/086 , E21B43/103 , E21B43/108 , G05B19/40937 , G05B2219/45036 , G05B2219/50049 , G05B2219/50063 , Y02P90/265 , Y10T29/496 , Y10T29/49771 , Y10T29/49995 , Y10T83/051 , Y10T83/0596 , Y10T83/148 , Y10T83/485
摘要： A method of manufacturing an expandable slotted tube fabricated from at least one tubular element and at least two annular elements connected to the opposite ends of the tubular element by means of butt joints wherein axially extending slots are formed at a uniform angular spacing around the periphery of the tube and in longitudinally overlapping relation characterized by cutting said annular elements in a pattern of overlapping positionally fixed slots in accordance with invariable parameters which are pre-determined relative to the dimensions of said annular elements and cutting in said tubular element a pattern of slots that is variable in accordance with measured parameters of the tube so as to achieve the required overlap between said positionally fixed and variable slots. A machine for carrying out the method is also described.
摘要翻译：一种制造由至少一个管状元件制成的可膨胀开槽管的方法和通过对接接头连接到管状元件的相对端的至少两个环形元件，其中轴向延伸的狭槽以管和纵向重叠关系，其特征在于根据相对于所述环形元件的尺寸预先确定的不变参数切割所述环形元件的重叠位置固定槽的图案，并且在所述管状元件中切割槽的图案，根据管的测量参数而变化，以便实现所述位置固定槽和可变槽之间所需的重叠。还描述了用于执行该方法的机器。

79. 发明申请

US20030133766A1 Automatic cutting liquid supply apparatus 有权
标题翻译：自动切割液体供给装置
公开(公告)号：US20030133766A1
公开(公告)日：2003-07-17
申请号：US10296372
申请日：2002-11-22
发明人： Tadashi Makiyama
IPC分类号： B23Q011/00
CPC分类号： B23Q11/1038 , G05B2219/36308 , G05B2219/45036 , Y10T408/44 , Y10T408/453 , Y10T408/458 , Y10T409/303752 , Y10T409/304032
摘要： An automatic cutting liquid supply apparatus which automatically supplies a cutting liquid to each tool of a machine tool in accordance with predetermined optimal cutting liquid supply conditions that include variations over time during operation. The optimal supply conditions of the cutting liquid supply quantity (Q) are preset for each type of tool (1) in a control means (5). The control means (5) is constructed from a main control section (5a), which mainly controls the driving of the main shaft units (2) on which the tools (1) are mounted, and an automatic supply control section (5b), which automatically controls the cutting liquid supply quantities (Q). An input signal (Vin) corresponding to the supply conditions (preset) is inputted into the variable frequency generating means (5c) from the automatic supply control section (5b). The variable frequency generating means (5c) generates an output frequency signal (F) that corresponds to the input signal (Vin) and transmits this output frequency signal (F) to the cutting liquid supply means (3). The cutting liquid supply means (3) supplies cutting liquid supply quantities (Q) that are proportional to the output frequency signal (F) to the tools (1) from the cutting liquid tank (3a) by means of the supply pump (3c).
摘要翻译：一种自动切割液体供应装置，其根据预定的最佳切割液体供应条件自动将切割液体提供给机床的每个工具，该条件包括在操作期间随时间推移的变化。在控制装置（5）中为每种类型的工具（1）预设切割液体供给量（Q）的最佳供应条件。控制装置（5）由主控制部分（5a）构成，主控制部分主要控制安装有工具（1）的主轴单元（2）的驱动，以及自动供应控制部分（5b）自动控制切削液供给量（Q）。对应于供给条件（预设）的输入信号（Vin）从自动供给控制部（5b）输入到变频产生装置（5c）。可变频率发生装置（5c）产生对应于输入信号（Vin）的输出频率信号（F），并将该输出频率信号（F）发送到切割液供给装置（3）。切割液供给装置（3）通过供给泵（3c）从切割液罐（3a）向工具（1）供给与输出频率信号（F）成比例的切削液供给量（Q）。

80. 发明申请

US20030065424A1 Method and system for automated software control of waterjet orientation parameters 有权
标题翻译：水枪定向参数自动化软件控制方法与系统
公开(公告)号：US20030065424A1
公开(公告)日：2003-04-03
申请号：US09940687
申请日：2001-08-27
申请人： Flow International Corporation
发明人： Glenn A. Erichsen , Jiannan Zhou , Mira K. Sahney , Michael Knaupp
IPC分类号： G05D009/00 , G05D007/00 , G05D011/00
CPC分类号： G05B19/4099 , B24C1/045 , B26D5/00 , B26F3/004 , G05B2219/45036 , G05B2219/49012 , Y02P90/265 , Y10T83/141 , Y10T83/364
摘要： Methods and systems for automating the control of fluid jet orientation parameters are provided. Example embodiments provide a Dynamic Waterjet Control System (a nullDWCSnull) to dynamically control the orientation of the jet relative to the material being cut as a function of speed and other process parameters. Orientation parameters include, for example, the x-y position of the jet along the cutting path, as well as three dimensional orientation parameters of the jet, such as standoff compensation values and taper and lead angles of the cutting head. In one embodiment, the DWCS uses a set of predictive models to determine these orientation parameters. The DWCS preferably comprises a motion program generator/kernel, a user interface, one or more replaceable orientation and process models, and a communications interface to a fluid jet apparatus controller. Optionally the DWCS also includes a CAD module for designing the target piece. In operation, the motion program generator receives input from the CAD design module and the user interface to build a motion program that can be forwarded to and executed by the controller to control the cutting process. The replaceable models provide the motion program generator with access to sets of mathematical models that are used to determine appropriate jet orientation and process parameters. For example, in some environments, these equations are used to generate the x-position, y-position, standoff compensation value, lead angle, and taper angle of each command. The DWCS also provides two way communication between itself and the controller. The controller functions are used, for example, to display the cutting path in progress while the target piece is being cut out of the workpiece. They are also used to obtain current values of the cutting apparatus, such as the current state of attached mechanical and electrical devices.
摘要翻译：提供了用于自动化控制流体射流取向参数的方法和系统。示例性实施例提供了一种动态水射流控制系统（“DWCS”），以根据速度和其它过程参数来动态地控制射流相对于被切割材料的取向。取向参数包括例如沿着切割路径的射流的x-y位置以及射流的三维取向参数，例如切割头的间隔补偿值和锥形和引导角。在一个实施例中，DWCS使用一组预测模型来确定这些取向参数。 DWCS优选地包括运动程序生成器/内核，用户界面，一个或多个可替换的定向和过程模型，以及到流体喷射装置控制器的通信接口。可选地，DWCS还包括用于设计目标件的CAD模块。在操作中，运动程序生成器接收来自CAD设计模块和用户界面的输入，以构建运动程序，该运动程序可被转发到控制器并由控制器执行以控制切割过程。可更换型号为运动程序生成器提供访问用于确定合适的喷射方向和过程参数的数学模型集。例如，在某些环境中，这些方程用于产生每个命令的x位置，y位置，平台补偿值，引导角和锥角。 DWCS还提供了自身与控制器之间的双向通信。例如，当将目标件从工件切出时，使用控制器功能来显示正在进行的切割路径。它们也用于获得切割装置的当前值，例如附接的机械和电气装置的当前状态。

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