Geometric variation prediction in automotive assembling
Abstract
This paper develops the statistical error analysis model for assembling, to derive measures of controlling the geometric variations in assembly with multiple assembly stations, and to provide a statistical tolerance prediction/distribution toolkit integrated with CAD system for responding quickly to market opportunities with reduced manufacturing costs and improved quality. First the homogeneous transformation is used to describe the location and orientation of assembly features, parts and other related surfaces. The desired location and orientation, and the related fixturing configuration (including locator position and orientation) are automatically extracted from CAD models. The location and orientation errors are represented with differential transformations. The statistical error prediction model is formulated and the related algorithms integrated with the CAD system so that the complex geometric information can be directly accessed. In the prediction model, the manufacturing process (joining) error, induced by heat deformation in welding, is taken into account.
Keywords
Citation
Xiong, C., Rong, Y., Koganti, R.P., Zaluzec, M.J. and Wang, N. (2002), "Geometric variation prediction in automotive assembling", Assembly Automation, Vol. 22 No. 3, pp. 260-269. https://doi.org/10.1108/01445150210436473
Publisher
:MCB UP Ltd
Copyright © 2002, MCB UP Limited