首页|Assembly deviation modelling to predict and trace the geometric accuracy of the precision motion system of a CNC machine tool
Assembly deviation modelling to predict and trace the geometric accuracy of the precision motion system of a CNC machine tool
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NSTL
Elsevier
Geometric accuracy is the direct embodiment of the assembly deviation of a precision motion system. This paper proposes a novel methodology for predicting the geometric accuracy induced by assembly deviation of a precision motion system and tracing the sensitivity of the assembly deviation with respect to geometric accuracy terms. The small displacement torsor is first characterized as the periodic function of the assembly deviation and dimension parameters of the components of ball-screw feeding system, the vector constraint relationship of the parallel assembly of the feeding system is established, and a spatial propagate model of the assembly deviation for the feeding system is then constructed. A random balance design and Fourier amplitude sensitivity test method are introduced to trace the effect of each assembly feature on the geometric accuracy. The experiments were performed on a single-axis feeding system to verify the effectiveness of the proposed method. This method has the advantage that the mapping relationship between the assembly deviation and geometric accuracy with respect to the instructed position is quantified, and the assembly and adjustment is pertinent to the traceability analysis. The model has the potential to accurately allocate and maintain the machining centre.
CNC machine toolMotion systemAssembly deviationGeometric accuracyPredict and traceability
Shijie Guo、Jun Yang、Guan Qiao、Xuesong Mei
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The College of Mechanical Engineering, Inner Mongolia University of Technology
School of Mechanical Engineering, State Key Laboratory for Manufacturing Systems Engineering, Xi'an Jiaotong University
NSTL
Elsevier
