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    • 1. 发明授权
    • Automated fluid-jet tilt compensation for lag and taper
    • 自动流体喷射倾斜补偿滞后和锥度
    • US06922605B1
    • 2005-07-26
    • US10683798
    • 2003-10-10
    • John H. Olsen
    • John H. Olsen
    • B23Q20060101B23Q1/54B24C1/04B24C3/06B24C5/04B26D5/02B26D5/04B26D7/00B26F3/00G06F19/00
    • B24C1/04B23Q1/5462B26D5/02B26D5/04B26D7/00B26F3/004Y10T83/364
    • A computerized method for determining a tilt parameter of a cutting head of a fluid-jet apparatus. The method includes receiving a target-piece shape, describing an ordered path defining the target-piece shape, and segmenting the path into small straight lines of approximately equal length. The method further includes determining a cutting-head translation speed for each of the small straight lines, determining a tilt parameter of the cutting head with respect to the plane of the workpiece in response to the speed and a fluid jet-shape parameter for each of the small straight lines, storing the small straight lines and the determined tilt parameter associated with each small straight line in a memory, and sending the stored data to the fluid-jet apparatus. The method may include controlling the tilt of the cutting head in accordance with the tilt parameter for each small straight line as the cutting head cuts the workpiece.
    • 一种用于确定流体喷射装置的切割头的倾斜参数的计算机化方法。 该方法包括接收目标片形状,描述限定目标片形状的有序路径,并将路径分割成大致相等长度的小直线。 该方法还包括确定每个小直线的切割头平移速度,响应于速度确定切割头相对于工件的平面的倾斜参数,以及针对每一个的流体喷射形状参数 存储小直线和与每个小直线相关联的确定的倾斜参数存储在存储器中的小直线,并将存储的数据发送到流体喷射装置。 该方法可以包括当切割头切割工件时根据每个小直线的倾斜参数来控制切割头的倾斜。
    • 2. 发明授权
    • Pressure compensation device for high-pressure liquid pump
    • 高压液压泵压力补偿装置
    • US5380159A
    • 1995-01-10
    • US261693
    • 1994-06-16
    • John H. OlsenOlivier L. Tremoulet, Jr.Chidambaram Raghavan
    • John H. OlsenOlivier L. Tremoulet, Jr.Chidambaram Raghavan
    • F04B49/24F04B49/08
    • F04B49/243
    • A pressure compensation device for use in a high-pressure direct driven pump to control the output pressure of the pump is shown and described. In a preferred embodiment, the high-pressure pump has a valve assembly that selectively allows fluid pressurized by a reciprocating plunger to pass from a pressurization chamber to an outlet chamber from which the pressurized fluid is collected for use. A pressure compensation device has a lever which balances a control force against a force generated by the high-pressure fluid in the outlet chamber. When the outlet pressure exceeds a selected level, the pressure compensation device acts to prevent the further pressurization of fluid by causing the fluid to flow back out of the pressurization chamber via the same passageway(s) through which the fluid was originally introduced into the system.
    • 示出并描述了用于高压直接驱动泵中用于控制泵的输出压力的压力补偿装置。 在优选实施例中,高压泵具有阀组件,该阀组件选择性地允许由往复式柱塞加压的流体从加压室通到出口室,加压流体从该出口室被收集以供使用。 压力补偿装置具有杠杆,其将控制力与由出口室中的高压流体产生的力平衡。 当出口压力超过所选择的水平时,压力补偿装置用于通过使流体通过流体最初被引入到系统中的相同通道流出加压室来防止流体的进一步加压 。
    • 5. 发明申请
    • Abrasive pump for an abrasive jet cutting machine
    • 用于磨料喷射切割机的磨料泵
    • US20090247048A1
    • 2009-10-01
    • US12079783
    • 2008-03-28
    • John H. Olsen
    • John H. Olsen
    • B24C7/00B24C1/00B24B57/02B24C3/00
    • B24B57/02B24C3/00B24C7/0046
    • An abrasive supply system may, for example, be used to supply abrasive particles such as garnet to a cutting nozzle of an abrasive jet cutter. According to an embodiment, the abrasive is propelled by a substantially constant flow rate gas source. According to an embodiment, the system may be supplied with abrasive from an atmospheric pressure abrasive hopper. According to an embodiment, a controller automatically actuates refilling of an abrasive tank from the abrasive hopper, and then automatically closes an abrasive supply valve and restarts abrasive propulsion. According to an embodiment, the controller may include or consist of pneumatic logic.
    • 磨料供应系统可以例如用于将诸如石榴石的磨料颗粒供应到磨料喷射切割器的切割喷嘴。 根据一个实施例,研磨剂由基本恒定的流量气体源驱动。 根据一个实施例,系统可以从大气压研磨料斗中提供磨料。 根据实施例,控制器自动地致动从研磨料斗重新填充研磨罐,然后自动关闭研磨剂供应阀并重新开始研磨推进。 根据实施例,控制器可以包括或由气动逻辑组成。
    • 8. 发明授权
    • Abrasive pump for an abrasive jet cutting machine
    • 用于磨料喷射切割机的磨料泵
    • US08123591B2
    • 2012-02-28
    • US12079783
    • 2008-03-28
    • John H. Olsen
    • John H. Olsen
    • B24B1/00B24B49/00B24B51/00B24C7/00
    • B24B57/02B24C3/00B24C7/0046
    • An abrasive supply system may, for example, be used to supply abrasive particles such as garnet to a cutting nozzle of an abrasive jet cutter. According to an embodiment, the abrasive is propelled by a substantially constant flow rate gas source. According to an embodiment, the system may be supplied with abrasive from an atmospheric pressure abrasive hopper. According to an embodiment, a controller automatically actuates refilling of an abrasive tank from the abrasive hopper, and then automatically closes an abrasive supply valve and restarts abrasive propulsion. According to an embodiment, the controller may include or consist of pneumatic logic.
    • 磨料供应系统可以例如用于将诸如石榴石的磨料颗粒供应到磨料喷射切割器的切割喷嘴。 根据一个实施例,研磨剂由基本恒定的流量气体源驱动。 根据一个实施例,系统可以从大气压研磨料斗中提供磨料。 根据实施例,控制器自动地致动从研磨料斗重新填充研磨罐,然后自动关闭研磨剂供应阀并重新开始研磨推进。 根据实施例,控制器可以包括或由气动逻辑组成。