专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明授权

US5667565A Aerodynamic-electrostatic particulate collection system 失效
标题翻译：气动静电颗粒物收集系统
公开(公告)号：US5667565A
公开(公告)日：1997-09-16
申请号：US763208
申请日：1996-12-11
申请人： Robert K. Gondar
发明人： Robert K. Gondar
IPC分类号： B03C3/017 , B23Q11/00 , B03C3/10
CPC分类号： B03C3/017 , B23Q11/0046 , B23Q11/0064 , Y02P70/171 , Y10T408/50 , Y10T409/304088
摘要： An aerodynamic-electrostatic particulate collection system for high-efficiency collection of particulate debris generated in a machining area during machining of a workpiece, especially post-cure machining of a composite workpeice, that includes a vacuum subsystem for generating a localized, vacuum-induced aerodynamic fluid flow field in the machining area and a particulate charging, electric field generating subsystem integrated in combination with the workpiece and the vacuum subsystem for charging particulate debris generated during machining of the workpiece and for creating an electric field that directs the charged particulate debris into the localized, vacuum-induced aerodynamic fluid flow field. The vacuum subsystem includes a vacuum pump, a hose fluidically interconnected to the vacuum pump, and a nozzle fluidically connected to the hose distal the vacuum pump and having a configuration that defines the localized, vacuum-induced aerodynamic fluid flow field. The particulate charging, electric field generating subsystem includes a high voltage power supply, a first conductive lead electrically interconnecting the high voltage power supply and the workpiece, a collection electrode physically integrated in combination with the nozzle, and a second conductive lead electrically interconnecting the high voltage power supply and the collection electrode. The oppositely charged workpiece and collection electrode in combination produce a corona discharge in the machining area that causes the particulate debris generated during machining of the workpiece to be charged. Further, the oppositely charged workpiece and collection electrode in combination create the electric field that is collinear with the localized, vacuum-induced aerodynamic fluid flow field.
摘要翻译：一种用于在加工工件期间在加工区域中产生的颗粒碎片高效收集的空气动力学静电颗粒收集系统，特别是复合工件的后固化加工，其包括用于产生局部的真空诱导空气动力学的真空子系统加工区域中的流体流场和与工件和真空子系统组合的颗粒充电，电场产生子系统，用于对在加工工件期间产生的颗粒碎片进行充电，并产生将带电微粒碎片引导到局部的，真空引起的空气动力学流体流场。真空子系统包括真空泵，与真空泵流体连接的软管，以及与真空泵远离流体连接到软管的喷嘴，并且具有限定局部真空诱发的空气动力学流体流场的构造。微粒充电电场产生子系统包括高压电源，将高电压电源和工件电连接的第一导电引线，与喷嘴结合物理地集成的集电极;以及将高电压电连接的第二导电引线电压电源和收集电极。相对充电的工件和收集电极组合在加工区域产生电晕放电，导致在加工工件期间产生的颗粒碎屑带电。此外，相反充电的工件和收集电极组合产生与局部的真空诱发的空气动力学流体流场共线的电场。

2. 发明授权

US4886009A Composite tool having wear indicator 失效
标题翻译：具有磨损指示器的复合工具
公开(公告)号：US4886009A
公开(公告)日：1989-12-12
申请号：US211949
申请日：1988-06-27
申请人： Robert K. Gondar , Philip J. Jacobs
发明人： Robert K. Gondar , Philip J. Jacobs
IPC分类号： B23D51/02 , G01N3/56
CPC分类号： B23D51/025 , G01N3/56 , Y10T408/57 , Y10T83/8878
摘要： An indicator that provides information on the wear status of a composite tool that is subject to abrasion during use. The composite tool contains at least one wear groove in the area subject to abrasion. The wear groove has a desired length and predetermined depth. The wear groove is formed of a desired length and of a predetermined depth into the tool in the area subject to abrasion. During use of the tool in composite forming, the tool is inspected for the presence and depth of the wear groove thereby indicating the wear status of the tool.
摘要翻译：提供有关在使用过程中磨损的复合工具的磨损状态的信息的指示器。该复合工具在该磨损区域内至少包含一条耐磨槽。磨损槽具有期望的长度和预定的深度。磨损槽由经受磨损的区域中的所需长度和预定深度形成到工具中。在复合成型中使用该工具时，检查刀具的磨损槽的存在和深度，从而指示刀具的磨损状态。

3. 发明授权

US5762691A Aerodynamic-electrostatic particulate collection system 失效
标题翻译：气动静电颗粒物收集系统
公开(公告)号：US5762691A
公开(公告)日：1998-06-09
申请号：US407748
申请日：1995-03-21
申请人： Robert K. Gondar
发明人： Robert K. Gondar
IPC分类号： B03C3/017 , B23Q11/00 , B03C3/36
CPC分类号： B03C3/017 , B23Q11/0046 , B23Q11/0064 , Y02P70/171 , Y10T408/50 , Y10T409/304088
摘要： An aerodynamic-electrostatic particulate collection system for high-efficiency collection of particulate debris generated in a machining area during machining of a workpiece, especially post-cure machining of a composite workpiece, that includes a vacuum subsystem for generating a localized, vacuum-induced aerodynamic fluid flow field in the machining area and a particulate charging, electric field generating subsystem integrated in combination with the workpiece and the vacuum subsystem for charging particulate debris generated during machining of the workpiece and for creating an electric field that directs the charged particulate debris into the localized, vacuum-induced aerodynamic fluid flow field. The vacuum subsystem includes a vacuum pump, a hose fluidically interconnected to the vacuum pump, and a nozzle fluidically connected to the hose distal the vacuum pump and having a configuration that defines the localized, vacuum-induced aerodynamic fluid flow field. The particulate charging, electric field generating subsystem includes a high voltage power supply, a first conductive lead electrically interconnecting the high voltage power supply and the workpiece, a collection electrode physically integrated in combination with the nozzle, and a second conductive lead electrically interconnecting the high voltage power supply and the collection electrode. The oppositely charged workpiece and collection electrode in combination produce a corona discharge in the machining area that causes the particulate debris generated during machining of the workpiece to be charged. Further, the oppositely charged workpiece and collection electrode in combination create the electric field that is collinear with the localized, vacuum-induced aerodynamic fluid flow field.
摘要翻译：一种用于在加工工件期间在加工区域中产生的颗粒碎片高效收集的空气动力学静电颗粒收集系统，特别是复合工件的后固化加工，其包括用于产生局部真空诱导空气动力学的真空子系统加工区域中的流体流场和与工件和真空子系统组合的颗粒充电，电场产生子系统，用于对在加工工件期间产生的颗粒碎片进行充电，并产生将带电微粒碎片引导到局部的，真空引起的空气动力学流体流场。真空子系统包括真空泵，与真空泵流体连接的软管，以及与真空泵远离流体连接到软管的喷嘴，并且具有限定局部真空诱发的空气动力学流体流场的构造。微粒充电电场产生子系统包括高压电源，将高电压电源和工件电连接的第一导电引线，与喷嘴结合物理地集成的集电极;以及将高电压电连接的第二导电引线电压电源和收集电极。相对充电的工件和收集电极组合在加工区域产生电晕放电，导致在加工工件期间产生的颗粒碎屑带电。此外，相反充电的工件和收集电极组合产生与局部的真空诱发的空气动力学流体流场共线的电场。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式