Determination of Energy Losses of the Crank Press Mechanism

Machines Pub Date : 2024-07-15 DOI:10.3390/machines12070477
Jan Hlavac, Jiri Dekastello
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引用次数: 0

Abstract

This paper focuses on determining the friction energy loss in the mechanism of a mechanical crank press. After defining the crank press mechanism and how it works, we describe the energy balance of a technological operation—forming. Four distinct methodologies for calculating friction loss in the mechanism are then presented, namely an empirical method, a spreadsheet calculation utilising force decomposition in a crank mechanism, an analytical calculation of the dynamic behaviour of a press, and a multibody simulation. Each additional approach expands the possibilities for approaching reality, but as the primary aim of the study is to compare the approaches, these possibilities are not exploited. Multibody simulation has proved itself to be accurate and suitable for simulating press mechanisms and investigating their dynamics. Multibody simulation is a much more powerful tool that can lead to a digital twin, which can help us to develop a less energy-demanding press. Confirmation of the multibody simulation results is the main outcome of the comparison and will be used in future work.
曲柄压力机机构能量损失的测定
本文的重点是确定机械曲柄压力机机构中的摩擦能量损失。在定义曲柄压力机机构及其工作原理后,我们描述了技术操作形成的能量平衡。然后介绍了四种不同的方法来计算机构中的摩擦损耗,即经验方法、利用曲柄机构中的力分解进行的电子表格计算、压力机动态行为的分析计算以及多体模拟。每种额外的方法都扩大了接近现实的可能性,但由于研究的主要目的是比较各种方法,因此没有利用这些可能性。事实证明,多体模拟非常精确,适合模拟压力机机构并研究其动态。多体模拟是一种功能更为强大的工具,可以生成数字孪生模型,帮助我们开发能耗更低的压力机。对多体模拟结果的确认是此次比较的主要成果,并将用于今后的工作中。
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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