Dimensional inspection of spur and helical gear teeth manufactured by Laser Metal Deposition

Procedia CIRP Pub Date : 2024-01-01 DOI:10.1016/j.procir.2024.08.104

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Abstract

Laser Metal Deposition (LMD) allows the fabrication of complex shapes onto non-planar surfaces. This manuscript presents a 3D-scanning strategy for the dimensional inspection of LMD-manufactured gear teeth onto cylindrical substrates. The standard registration (alignment) methods are ineffective in the context of LMD because they minimize the global distance between the reference model and the 3D-scanning point cloud. This global minimization wrongfully biases the alignment. In response to this limitation, this manuscript discusses a registration procedure that avoids global distance minimization by sequentially aligning the datums (gear root cylinder and planar faces) of both datasets. This datum-alignment procedure fixes 5 out of 6 Degrees of Freedom (DOF). The final DOF is determined by finding the optimal rotation angle that minimizes the distance between the gear teeth of both datasets. The strategy is validated with actual LMD-manufactured spur and helical gear teeth onto cylindrical substrates. This strategy would also save time during the grinding process.

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激光金属沉积法制造的直齿轮和螺旋齿轮齿的尺寸检测

激光金属沉积 (LMD) 可以在非平面表面上制造复杂的形状。本手稿介绍了一种三维扫描策略，用于在圆柱形基板上对 LMD 制造的齿轮齿进行尺寸检测。标准的注册（对齐）方法在 LMD 情况下无效，因为这些方法会使参考模型与三维扫描点云之间的全局距离最小化。这种全局最小化错误地造成了配准的偏差。针对这一局限性，本手稿讨论了一种注册程序，该程序通过依次对准两个数据集的基准（齿轮根圆柱体和平面面）来避免全局距离最小化。这种基准对齐程序可固定 6 个自由度 (DOF) 中的 5 个。最后一个自由度是通过寻找最佳旋转角度来确定的，该角度可使两个数据集的齿轮齿间距离最小化。我们使用 LMD 在圆柱形基板上实际制造的直齿和斜齿对该策略进行了验证。该策略还可节省磨削过程中的时间。

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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