Improvement of Torque Density Using Output Reduction Method in Transmission

Q3 Engineering

SAE Technical Papers Pub Date : 2023-11-10 DOI:10.4271/2023-28-0050

Manikandan R, Barathi Raja K, Aneesh Kumar, Amit Ostwal

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Abstract

Gears are one of the vital components to transmit torque efficiently. Helical gears are chosen as they transmit higher torque with lesser noise compared to spur gears of same size. All new age gearboxes require to transmit maximum torque with minimum packaging space available to improve torque density. Ways of reducing weight are using lesser density material, decreasing centre distance, and thereby reducing pitch circle diameter of all gears, etc. However, they will also affect torque carrying capacity of gearbox which can lead to gear failure in conventional transmission architecture gearboxes with input reduction method. In input reduction method, torque gets multiplied from input shaft to countershaft. Countershaft torque is multiplied to output shaft gears requiring higher torque capacity gears on output shaft. In this research, output shaft reduction architecture is proposed to avoid torque multiplication from input shaft to countershaft gears. It helps to reduce gear sizing on input shaft and countershaft gears. By using modular calculation methods, face width, centre distance and number of teeth are optimized to get higher torque density.

This paper presents a discussion on types of transmission layout configuration and compares input reduction method and output reduction configurations. Weight, size, deflection, and efficiency for same torque output is calculated between input reduction and output reduction. It is observed that output reduction configuration offers significant weight reduction for same torque capacity compared to input reduction with slight deterioration in efficiency.

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采用减量法提高变速器转矩密度

<div class="section abstract"><div class="htmlview段落">齿轮是有效传递扭矩的重要部件之一。斜齿轮被选择，因为他们传递更高的扭矩与较小的噪音相比，相同尺寸的正齿轮。所有新时代的变速箱都要求以最小的包装空间传输最大的扭矩，以提高扭矩密度。减轻重量的方法是采用较低密度的材料，减少中心距离，从而减少所有齿轮的节圆直径等。然而，它们也会影响齿轮箱的转矩承载能力，从而导致传统传动结构的输入减速器齿轮箱失效。在输入减量法中，扭矩从输入轴到副轴相乘。副轴扭矩乘以输出轴齿轮，输出轴上需要更高的扭矩容量齿轮。在本研究中，提出了输出轴减速结构，以避免从输入轴到副轴齿轮的扭矩倍增。它有助于减少输入轴和副轴齿轮的齿轮尺寸。采用模块化计算方法，对齿面宽度、中心距离和齿数进行优化，以获得更高的转矩密度。</div><div class="htmlview段落">本文讨论了变速器布局配置的类型，并比较了输入减速器和输出减速器的配置。在输入减小和输出减小之间计算相同扭矩输出的重量、尺寸、挠度和效率。可以观察到，在相同的扭矩容量下，与减少输入相比，减少输出配置可以显著减轻重量，但效率略有下降。</div></div>

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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来源期刊

SAE Technical Papers Engineering-Industrial and Manufacturing Engineering

CiteScore

1.00

自引率

0.00%

发文量

1487

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