Avoiding structural redundancies between the vehicle body and the battery housing based on a functional integration approach

Automotive and Engine Technology Pub Date : 2022-04-30 DOI:10.1007/s41104-022-00106-8

Christopher Krüger, Sebastian Spohr, David Merdivan, Peter Urban

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引用次数: 1

Abstract

In this paper, the approach for a functionally integrated battery housing is presented, to avoid structural redundancies towards the vehicle body. The goal is to reduce the overall structural weight while simultaneously increasing the package space for battery modules. The typically existing boundary conditions for the battery system are taken into account. Especially, the detachability of the battery as a closed unit is in focus, to ensure the leak tightness of this system and to enable replacement. Based on the available space in a research vehicle, such a functionally integrated concept is developed. In particular, the vehicle floor and the vehicle rocker are identified as suitable components for integration. The verification of the concept with regard to the crash performance is carried out on component and on full vehicle level. On both levels, the side pole impact is used as load case and the deformation behavior is investigated.

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基于功能集成方法避免车身和电池外壳之间的结构冗余

本文提出了一种功能集成电池外壳的方法，以避免车身结构冗余。目标是减少整体结构重量，同时增加电池模块的封装空间。电池系统的典型的现有边界条件被考虑在内。特别是，电池作为一个封闭单元的可拆卸性是重点，以确保该系统的密封性并能够进行更换。基于研究车辆中的可用空间，开发了这样一个功能集成的概念。特别是，车辆地板和车辆摇臂被确定为适合集成的部件。碰撞性能概念的验证是在部件和整车水平上进行的。在这两个层面上，侧杆碰撞被用作载荷情况，并研究了变形行为。

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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Automotive and Engine Technology

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