纸机截面扭转振动的评估

Conference Record of 2004 Annual Pulp and Paper Industry Technical Conference (IEEE Cat. No.04CH37523) Pub Date : 1900-01-01 DOI:10.1109/papcon.2004.1338357

M. Valenzuela, J. Bentley, R. Lorenz

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引用次数: 0

摘要

扭转振荡对速度环的性能影响很大，并决定了速度环的带宽和阻尼。齿隙由于齿轮减速器也可以有助于触发振荡，特别是当驱动器运行在非常低的负载扭矩。本文详细评价了应用于纸机部件的典型机电传动系统的这些影响。评估的案例考虑了两质量和三质量系统的扭转振荡，以及轴直径和长度对三种典型造纸机部分共振频率的影响。时域响应图评估，以显示速度响应超调，减速器间隙，步进或斜坡速度命令的影响。基于这些结果，给出了最重要的传动系部件的机械设计准则，以尽量减少速度控制传动系统的扭转振荡。

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Evaluation of torsional oscillations in paper machine sections

Torsional oscillations greatly affect performance and determine the bandwidth (BW) and damping of speed loops. Backlash due to gear reducers can also contribute to the triggering of oscillations, especially when the drive runs at very low load torque. This paper presents a detailed evaluation of these effects in typical electro-mechanical drive trains applied to paper machine sections. The cases evaluated consider torsional oscillations in two-mass and three-mass systems, and the effect of shaft diameter and length on the resonance frequencies of three typical paper machine sections. Time domain response plots are evaluated to show the effect of speed response overshoot, reducer backlash, and step or ramp speed commands. Based on these results, mechanical design guidelines are given for the most significant drive train components in order to minimize torsional oscillations of the speed controlled drive system.

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Conference Record of 2004 Annual Pulp and Paper Industry Technical Conference (IEEE Cat. No.04CH37523)

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