系绳后面向儿童约束系统对ATD反应的影响。

Miriam A Manary, Matthew P Reed, Kathleen D Klinich, Nichole L Ritchie, Lawrence W Schneider
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引用次数: 0

摘要

为了分析拟人化测试装置(ATD)的响应,特别是在系上后面向儿童约束系统(CRS)时的颈部受力,研究人员进行了一系列雪橇试验。名义上相同的后置CRS在四种系带条件下进行了测试:无系带、系带在地板上、系带在汽车座椅底部、系带在汽车座椅背面上方的一点上。所有试验均使用带有头部、上颈部和胸部器械的CRABI 12MO ATD。试验采用ECE R44.02试验台进行。进行了正面和后部碰撞,每种情况都重复了16次雪橇试验。采用高速数字视频(1000 fps)记录CRS和ATD的运动。最高的ATD加速度、力和力矩是在正面测试的主要冲击时观察到的,而不是在反弹时。在正面碰撞反弹期间观察到的载荷在量级上与后方碰撞收集的峰值载荷相似。这四种系绳几何形状产生了不同的载荷模式。在两个冲击方向上,使用后系带观察到最低的HIC、颈部力和胸部加速度。上颈力矩数据没有显示出与系绳几何相关的明显趋势。ATD和CRS运动在正面碰撞时通过后系绳结构得到最佳控制,而在后碰撞时通过系绳结构得到最佳控制。数据显示,将后置CRS系在汽车座椅靠背上方的一点上,对前后碰撞都有潜在的好处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effects of tethering rear -facing child restraint systems on ATD responses.

A series of sled tests was performed to analyze the responses of an anthropomorphic test device (ATD), particularly neck forces, when rear-facing child restraint systems (CRS) are tethered. Nominally identical rear-facing CRS were tested in four tether conditions: untethered, tethered down to the floor, tethered down to the bottom of the vehicle seat, and tethered rearward to a point above the back of the vehicle seat. The CRABI 12MO ATD with head, upper neck, and chest instrumentation was used in all tests. The tests were conducted using the ECE R44.02 test bench. Both frontal and rear impacts were performed and each condition was repeated for a total of 16 sled tests. Motions of the CRS and ATD were recorded using high-speed digital video (1000 fps). The highest ATD accelerations, forces, and moments were observed during the primary impact of a frontal test, rather than on rebound. The loads observed during rebound from frontal impact were similar in magnitude to the peak loads collected during rear impact. The four tethering geometries produced distinct loading patterns. The lowest HIC, neck forces, and chest accelerations in both impact directions were observed with the rearward tether. The upper neck moment data did not show a clear trend relative to tethering geometry. ATD and CRS motions were best controlled in frontal impact by the rearward tethering geometry while the motions in rear impact were best controlled by tethering to the floor. The data show a potential benefit in both frontal and rear impacts of tethering rear-facing CRS to a point above the vehicle seatback.

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