在远侧侧面斜碰撞中,有无安全带定位助推器时,斜倚座椅靠背角度对 LODC 的影响。
The effect of reclined seat-back angles on the LODC with and without a belt-positioning booster during far-side lateral-oblique impacts.
机构信息
Center for Injury Research and Prevention, Children's Hospital of Philadelphia, Philadelphia, PA.
School of Biomedical Engineering, Science and Health System, Drexel University, Philadelphia, PA.
出版信息
Traffic Inj Prev. 2024;25(sup1):S208-S218. doi: 10.1080/15389588.2024.2358993. Epub 2024 Nov 1.
OBJECTIVE
In frontal crashes belt-positioning boosters (BPB) may prevent submarining when the seatback is reclined. It is unclear if the BPB can also mitigate injuries in far-side lateral-oblique crashes in reclined conditions, where current restraints are less effective in reducing lateral excursion. This study aimed to understand reclined child injury risk during lateral-oblique impacts, with and without a booster seat, by using the Large Omni-Directional Child (LODC) test device.
METHODS
The LODC was tested in nine lateral-oblique impact (80° from frontal) sled tests (target 31.3 km/h, duration 58 ms maximum, peak acceleration 21 g). Three seatback angles (25°, 45°, and 60°) with and without the BPB were compared on a production passenger seat with an integrated seatbelt. The LODC moved toward the buckle side during the far-side lateral-oblique impact. Abdominal pressure (left and right), seatbelt loads, anterior superioriliac spine (ASIS) forces, and pelvis lateral rotation were examined. The LODC head and knee excursions were extracted from a 3D-motion capture system.
RESULTS
In the reclined noBPB condition, peak abdominal pressures on the buckle side reached up to 186 kPa and the ASIS forces demonstrated an early (∼ 50 ms) peak and a subsequent drop in the reclined noBPB conditions, suggesting that the belt slid into the abdomen.With the BPB, peak pelvis lateral rotation was greater than in the noBPB conditions but decreased with increasing reclined seatback angles (BPB: 31° to 36.5° vs no-BPB: -5° to -4.6°). Peak lap belt forces were greater in the reclined noBPB conditions (4.8-4.9 kN) compared to all conditions with the BPB (2.9-3.2 kN).The greatest lateral head excursion was observed in the BPB 25° condition (895 mm) and the lowest in the noBPB 45° condition (748 mm).
CONCLUSIONS
The BPB may prevent the lap belt intrusion into the abdomen in reclined configurations in far side lateral-oblique impacts. The greater pelvis lateral rotation and head displacement with the BPB may lead to contact with other rear-seated occupants and/or vehicle structures, although motion decreased with the BPB as the reclined seatback angle increased. This suggests that reclined seats may help reduce BPB-seated children's lateral excursion in far-side lateral-oblique impacts.
目的
在正面碰撞中,当座椅靠背向后倾斜时,安全带位置提升器(BPB)可防止座椅下沉。目前尚不清楚 BPB 是否也可以减轻倾斜侧面碰撞中处于倾斜状态的儿童的伤害,因为当前的约束装置在减少横向位移方面效果较差。本研究旨在使用大型全方位儿童(LODC)测试装置,了解倾斜状态下侧面碰撞中儿童的受伤风险,包括使用和不使用助推器座椅的情况。
方法
在 9 次侧面撞击(与正面成 80°)滑橇测试(目标 31.3km/h,持续时间 58ms 最大,峰值加速度 21g)中对 LODC 进行了测试。在配备集成式安全带的生产型乘客座椅上比较了三种座椅靠背角度(25°、45°和 60°),有和没有 BPB 的情况。在远侧侧面碰撞中,LODC 向安全带扣侧移动。检查了腹部压力(左侧和右侧)、安全带载荷、髂前上棘(ASIS)力和骨盆侧向旋转。从 3D 运动捕捉系统中提取了 LODC 的头部和膝盖位移。
结果
在倾斜无 BPB 条件下,安全带扣侧的峰值腹部压力达到 186kPa,ASIS 力表现出早期(约 50ms)峰值,随后在倾斜无 BPB 条件下下降,表明安全带滑入腹部。使用 BPB 时,骨盆侧向旋转峰值大于无 BPB 条件,但随座椅靠背倾斜角度增加而减小(BPB:31°至 36.5°比无-BPB:-5°至-4.6°)。倾斜无 BPB 条件下的腿部安全带力峰值较大(4.8-4.9kN),而所有带 BPB 的条件下的力峰值均较小(2.9-3.2kN)。在 BPB 25°条件下观察到最大的头部侧向位移(895mm),而在无 BPB 45°条件下观察到的头部侧向位移最小(748mm)。
结论
BPB 可能防止安全带在远侧侧面碰撞中处于倾斜配置时侵入腹部。在使用 BPB 时,骨盆侧向旋转和头部位移较大,可能导致与其他后排座椅乘客和/或车辆结构接触,尽管随着座椅靠背倾斜角度的增加,BPB 使运动减少。这表明,在远侧侧面碰撞中,倾斜座椅可能有助于减少 BPB 座椅儿童的侧向位移。
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