Multi-degree of freedom machining

IEEE International Conference on Industrial Technology, 2003 Pub Date : 2003-12-10 DOI:10.1109/ICIT.2003.1290840

M. Jackson, P. Hynek, R. Parkin, N. Brown

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引用次数: 1

Abstract

This paper introduces a mechatronic system for improving surface waviness quality of machined timber products. The work presented examines the simulation of a piezo-electric actuator rolling element bearing spindle system. This system supports a rotating cutterhead in which two cutters are located for machining timber. The simulation model is based on classical second order vibration equations with the piezo-actuator modelled as a pusher of infinite stiffness serially linked to the spindle bearing housing via a spring of equal stiffness to the piezo-stack. Simulation results show that commercially available piezo-ceramic stacks can be used to generate 8 /spl mu/m radial cutterhead displacements over a time period of 200 /spl mu/sec. This allows the knife path loci through the timber to be modified and hence change the form of the surface wave from a circular arc to a trough, producing a corresponding reduction in wave height and an improvement in surface smoothness. Newly developed surface simulation software for analysing the effect of knife path loci modification is used to show a 57% improvement in surface waviness for low cutting speed conditions.

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多自由度加工

介绍了一种提高木材加工产品表面波纹质量的机电一体化系统。提出了一种压电致动器滚动体轴承主轴系统的仿真研究。该系统支持一个旋转刀盘，其中两个刀具位于加工木材。仿真模型基于经典二阶振动方程，将压电致动器建模为无限刚度的推杆，通过与压电堆刚度相等的弹簧串联到主轴轴承壳上。仿真结果表明，市售压电陶瓷堆可以在200 /spl mu/sec的时间内产生8 /spl mu/m的径向刀盘位移。这允许通过木材的刀路径轨迹进行修改，从而将表面波的形式从圆弧改变为槽，从而产生相应的波高降低和表面光滑度改善。新开发的用于分析刀路轨迹修改效果的表面仿真软件显示，在低切削速度条件下，表面波纹度改善了57%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE International Conference on Industrial Technology, 2003

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