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1.发明申请公开(公告)号:US20140196273A1
公开(公告)日:2014-07-17
申请号:US13984269
申请日:2012-02-08
CPC分类号: B23Q11/1046 , B23Q11/10 , B23Q17/00 , B23Q17/0952 , G05D7/0629 , G05D7/0682 , Y02P70/169 , Y10T29/49995
摘要: Devices, systems, and methods are provided for controlling a quantity of cutting fluid dispensed for a cutting tool within a CNC or other machining system. The devices, systems, and methods may include controlling multiple fluids such that coolant, lubricant, or other fluids can be delivered at different locations, at different flow rates, have their flow rates changed independently, and/or have their flow rates changed dynamically during a machining operation. In some embodiments, a feedback loop or input may be provided to obtain and/or provide information regarding the machining operation—such as cutting force, cutting temperature, cutting friction, machining operation, tool in use, work piece geometry, and/or material—and automatically and/or independently modify the fluid flow rates. The fluid may be atomized with air or other gases to minimize the quantities of fluid used. Components in the system may be modular to allow the system to be used with existing and new machining technologies.
摘要翻译: 提供了设备,系统和方法,用于控制在CNC或其他加工系统内为切削工具分配的切削液的数量。 装置,系统和方法可以包括控制多个流体,使得冷却剂,润滑剂或其它流体可以在不同的位置以不同流速输送,其流速独立地改变,和/或使其流速在 加工操作。 在一些实施例中,可以提供反馈回路或输入以获得和/或提供关于加工操作的信息,例如切削力,切削温度,切削摩擦,加工操作,使用中的工具,工件几何形状和/或材料 并自动和/或独立地修改流体流速。 流体可以用空气或其它气体雾化,以最小化使用的流体的量。 系统中的组件可以是模块化的,以允许系统与现有的和新的加工技术一起使用。
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公开(公告)号:US09616540B2
公开(公告)日:2017-04-11
申请号:US13984269
申请日:2012-02-08
CPC分类号: B23Q11/1046 , B23Q11/10 , B23Q17/00 , B23Q17/0952 , G05D7/0629 , G05D7/0682 , Y02P70/169 , Y10T29/49995
摘要: Devices, systems, and methods are provided for controlling a quantity of cutting fluid dispensed for a cutting tool within a CNC or other machining system. The devices, systems, and methods may include controlling multiple fluids such that coolant, lubricant, or other fluids can be delivered at different locations, at different flow rates, have their flow rates changed independently, and/or have their flow rates changed dynamically during a machining operation. In some embodiments, a feedback loop or input may be provided to obtain and/or provide information regarding the machining operation—such as cutting force, cutting temperature, cutting friction, machining operation, tool in use, work piece geometry, and/or material—and automatically and/or independently modify the fluid flow rates. The fluid may be atomized with air or other gases to minimize the quantities of fluid used. Components in the system may be modular to allow the system to be used with existing and new machining technologies.
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