Design of an Electric Motor Transmission System Without Friction Synchronization

Volume 10: 2019 International Power Transmission and Gearing Conference Pub Date : 2019-11-25 DOI:10.1115/detc2019-97648

Abdulmohsen Alowayed, D. Fernandes, Eric Jeunehomme, Siyang Liu, Zhisheng Wang, I.-Min Yang, Daniel Dorsch, A. Winter

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引用次数: 2

Abstract

This paper investigates the design of a new transmission system without a friction synchronizer for high-performance hybrid vehicles. Manual and automated manual transmission systems traditionally use friction synchronizers to facilitate smooth transitions during a gearshift, ensuring speed matching and proper engagement of the gears. Active position sensing technology for dogteeth is being developed, along with the potential of speed matching using electric motors, eliminating the need for the friction synchronizer. However, in removing these friction synchronizer components, significant shock could be introduced to the transmission system with speed or position errors during a shift. This paper proposes a solution through a gear system that utilizes a face mesh design, torsional springs, and alternating teeth height. A prototype of this design was created and successfully tested as a proof of concept for a transmission system, which has the potential to improve hybrid, automated manual transmission design.

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无摩擦同步电动机传动系统的设计

研究了高性能混合动力汽车无摩擦同步器传动系统的设计。手动和自动手动变速器系统传统上使用摩擦同步器来促进换挡过程中的平稳过渡，确保速度匹配和齿轮的适当啮合。狗齿主动位置传感技术正在开发中，同时使用电动机进行速度匹配的潜力，消除了对摩擦同步器的需求。然而，在移除这些摩擦同步器组件时，可能会在换挡期间因速度或位置错误而对传动系统产生重大冲击。本文提出了一种解决方案，通过一个齿轮系统，利用面网格设计，扭转弹簧，轮齿高度交替。该设计的原型已被创建并成功测试，作为传动系统的概念验证，该系统有可能改进混合动力、自动手动变速器的设计。

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

Volume 10: 2019 International Power Transmission and Gearing Conference

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