Structural Design and Strength Analysis of Motorcycle Child Seat

2020 6th International Conference on Computing Engineering and Design (ICCED) Pub Date : 2020-10-15 DOI:10.1109/ICCED51276.2020.9415769

F. Triawan, M. A. Prayogo, Camytha Octanuryati Rochmad, Adven Simarmata

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引用次数: 1

Abstract

This paper introduces a primary design of a child safety seat for motorcycle Honda Vario 150 eSP along with its static and fatigue strength analyses. The design is equipped with an innovation in which a recliner mechanism is built in the seat so that the backrest can be adjusted either in an upright or tilted position. The mechanical strength analyses aim to ensure the child seat is safe for the rider and child. The analyses are carried out on the critical components of the child seat, which are the backrest, body-seat, and clamping support by theoretical approach to find the safety factor. As a result, the proposed child seat design can offer a safety factor of 78 for the body-seat component under static, and 466 for the clamping support under fatigue. This means the proposed design can provide a good safety. Moreover, the high safety factor can allow more improvements and modification for further optimization of the structure and materials. In addition, this work can be referred as a lecture note for machine element course.

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摩托车儿童座椅结构设计及强度分析

本文介绍了本田Vario 150 eSP摩托车儿童安全座椅的初步设计，并对其进行了静强度和疲劳强度分析。该设计配备了一个创新的躺椅机构，在座位上，使靠背可以调整在一个直立或倾斜的位置。机械强度分析的目的是为了保证儿童座椅对骑行者和儿童的安全。采用理论方法对儿童座椅的关键部件靠背、车身座和夹紧支架进行了分析，求出安全系数。因此，所提出的儿童座椅设计可以为静态下的车身-座椅部件提供78的安全系数，为疲劳下的夹紧支撑提供466的安全系数。这意味着所提出的设计可以提供良好的安全性。此外，高安全系数可以允许更多的改进和修改，以进一步优化结构和材料。此外，本文还可作为机械元件课程的课堂讲稿。

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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2020 6th International Conference on Computing Engineering and Design (ICCED)

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