Planetary Gearbox Design and Development using Additive Manufacturing

An-Najah University Journal for Research - A (Natural Sciences) Pub Date : 2024-02-01 DOI:10.35552/anujr.a.38.1.2150

Mohammed Amer

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Abstract

Modern manufacturing technology is dominated by additive manufacturing due to its simplicity, precision, time and material savings, and flexibility in design. The purpose of this study is to propose and print a 3D model of planetary gear trains since these gear trains are more efficient than conventional gear trains and have many advantages. A planet gear trains must have collinear input and output axes in order to achieve compact space requirements. Using even spacing between the planets in a gear train allows both static and dynamic forces to be balanced. It is also possible for multiple planets to produce high torques. Finally, it is capable of providing a wide range of speeds. The printed model performed exceptionally well when it came to performance, and it can be used for both educational and industrial purposes, exhibiting the ability to withstand a high level of stress. The current paper demonstrated the process of 3D printing and the challenges involved in printing planetary gear trains, as well as possible solutions to these challenges. Finally, tolerances were reported as 0.5 mm on the final CAD model, and 0.15 mm on the last updated results

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使用快速成型技术设计和开发行星齿轮箱

现代制造技术以增材制造为主，因为它简单、精确、节省时间和材料，而且设计灵活。本研究的目的是提出并打印行星齿轮传动装置的三维模型，因为这种齿轮传动装置比传统齿轮传动装置更高效，而且具有许多优点。行星齿轮传动系统的输入轴和输出轴必须平行，以满足紧凑的空间要求。在齿轮系中使用均匀的行星间距可以平衡静态和动态力。多行星齿轮还可以产生高扭矩。最后，它还能提供很宽的速度范围。打印出的模型在性能方面表现优异，可用于教育和工业目的，并能承受高强度的压力。本论文展示了三维打印过程和打印行星齿轮系所面临的挑战，以及应对这些挑战的可能解决方案。最后，最终 CAD 模型的公差为 0.5 毫米，最新更新结果的公差为 0.15 毫米。

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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An-Najah University Journal for Research - A (Natural Sciences)

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