自适应增量弯曲特征线方程的建立思想,对于实现零件数控弯曲成形过程是可行的。
The ways of founding the characteristic line equation for adaptive incremental bending is feasible to realize numerical control of the bending process.
管材与不同部位模具间隙是影响薄壁管数控弯曲过程成形极限和成形质量的重要因素。
Clearance between tube and various dies is of great importance to influence forming limit and quality during thin-walled nc bending process.
薄壁管数控弯曲中带芯头的柔性芯模是提高薄壁管件成形极限和成形精度的关键因素。
The mandrel(including flexible balls) is the key to improving the forming limit and forming precision in thin-walled tube NC bending process.
管料的数控弯曲是一种先进的管弯曲塑性加工技术,而数控弯管技术的高效应用需要相关的软件支持。
The nc tube bending process is one of the advanced tube bending technologies, and its high effective application needs the corresponding software to support its performance.
通过对新型棒料数控弯曲机计算机控制流程的研究,提出了一种改进方案,有效地提高了该设备的生产效率。
An approach to improve computer control flow sequence has been put forward through the research on it, hence effective improvement on productivity of CNC bending machine.
阐述了自适应增量弯曲的基本原理与试验数据处理方法,建立了自适应增量弯曲特征线方程,并将其应用到壁板类带筋结构件的数控弯曲成形过程中。
The characteristic line equation of adaptive bending is established and applied to the numerical control of the bending forming of ribbed structural parts.
包括:锯切、冲压、车削、钻孔攻丝、铣、焊接、抛光、拉丝、数控加工、弯曲、成型等深加工、氩弧焊接、装配。
Including: Sawing, punching, turning, drilling, tapping, milling, polishing, wire-drawing, CNC processing, bending, forming and other deep processing, argon arc welding and assembly.
按质点的转动性质精确绘制出圆管弯曲模活动凹模模块,便于数控线切割机一次完成凹模加工,缩短了制模周。
The movable matrix module of the bending die for round pipe was drawn precisely according to the rotation property of the particle.
并对弯曲过程的数学模型、弯曲机械手的轨迹设计及实际进给量的计算方法等理论进行了研究,为弯曲木的加工实现数控化奠定了基础。
The mathematical model of the bending process, the track design of bending manipulator and the calculate method are also studied to made the bending wood can be machined by numerical control.
并对弯曲过程的数学模型、弯曲机械手的轨迹设计及实际进给量的计算方法等理论进行了研究,为弯曲木的加工实现数控化奠定了基础。
The mathematical model of the bending process, the track design of bending manipulator and the calculate method are also studied to made the bending wood can be machined by numerical control.
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