Kinematically Coupled Force Compensation – Design Principle and Control Concept for Highly-dynamic Machine Tools

Steffen Ihlenfeldt; Jens Müller; Christoph Peukert; Marcel Merx

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Kinematically Coupled Force Compensation – Design Principle and Control Concept for Highly-dynamic Machine Tools

机译：运动耦合力补偿–高动力机床的设计原理和控制概念

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Today, the dynamics, especially acceleration and jerk, of machine tools are limited in order to reduce excitations of machine structure vibrations to an acceptable level. A novel approach - the Kinematically Coupled Force Compensation (KCFC) - combines the principles of redundant axes and force compensation to further increase machines’ dynamics. In this paper, the new principle is introduced and possible control concepts are compared based on an analysis in frequency and time domain. Simulations, using a simple multi-body simulation model implemented in MATLAB/Simulink ? , show, that machine structure vibrations can be reduced significantly by KCFC.

机译：如今，机床的动力，特别是加速度和冲击力受到限制，以将机械结构振动的激发降低到可接受的水平。运动耦合力补偿（KCFC）是一种新颖的方法，结合了冗余轴和力补偿的原理来进一步提高机器的动力。本文介绍了新的原理，并基于频域和时域的分析比较了可能的控制概念。使用在MATLAB / Simulink中实现的简单多体仿真模型进行仿真，表明，通过KCFC可以显着降低机器结构的振动。

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《Procedia CIRP》 |2016年第2apartab期|共4页
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Steffen Ihlenfeldt; Jens Müller; Christoph Peukert; Marcel Merx;
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Kinematically Coupled Force Compensation – Design Principle and Control Concept for Highly-dynamic Machine Tools

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