侧碰假人颈部标定系统的实验研究
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国家自然科学基金海外及港澳学者合作研究项目(30928005),重庆市自然科学基金(CSTC2009BB5013),第三军医大学科研发展基金(2009XHG16)资助项目


Experimental study on calibration system of side-impact dummy neck
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    摘要:

    目的 研究“侧碰假人颈部标定系统”的设计方法和加工技术。方法 采用“摆臂撞击原理”,设计“ES-2型侧碰假人颈部标定系统”;开发国产化的新技术、新方法,研制该标定系统中的两个关键设备,即“摆臂装置”和“头颈弯曲角测量装置”;根据ECE R95标准的相关技术要求,对该标定系统进行6次验证实验。结果 摆臂装置产生的摆臂初始速度3.36~3.48 m/s、摆臂对吸能块的碰撞速度 时间曲线均符合ECE R95标准要求;头颈弯曲角测量装置能较为准确地检测出ES-2型侧碰假人头颈部的“最大前摆基本角”、“最大后摆基本角”和“最大头颈弯曲角”。结论 “ES-2侧碰假人颈部标定系统”简便、实用,基本满足ECE R95标准要求;其设计方法和加工技术具有一定的应用价值。

    Abstract:

    Objective To investigate the design approaches and manufacturing techniques for the calibration system of side impact dummy neck. Method The ES-2 side impact dummy neck was selected as the research subject and a set of calibration system of ES 2 side impact dummy neck was developed in this experiment according to the pendulum impact theory, and the new design approaches and new manufacturing techniques suitable for the present industrial conditions in China were created to establish its two key components: the pendulum device and the head-neck flexion angle measurement device. The optimal designs for the quality distribution and inertia moment distribution of the whole pendulum were also carried out to assure the pendulum initial velocity and the pendulum impact velocity time curve during the pendulum absorber impact, while optimal designs for three angle sensors and the complex stereoscopically dependent relationship among those three sensors were carried out to assure the reliability of the head neck flexion angle measurement device. Correspondingly, a total of six calibration tests were carried out to validate this calibration system in terms of the technical requirements of ECE R95. Results The pendulum initial velocity of 3.36~3.48 m/s and the pendulum impact velocity time curve during the pendulum absorber impact, which were generated by the pendulum device in this calibration system of ES 2 side impact dummy neck, were in accordance with the ECE R95. Meanwhile, the head neck flexion angle measurement device of this calibration system was sufficient to detect the following three target angle values more accurately: the maximum values of fore pendulum base angles, the maximum values of aft pendulum base angles, and the maximum values of head neck complex flexion angles. Conclusions The calibration system of ES-2 side impact dummy neck is basically capable of meeting the demands of the existing international rule, the ECE R95. Besides, this neck calibration system is convenient and practical, and its design approaches and manufacturing techniques are likely to find the wider application in the impact biomechanics field.

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刘利,陈海斌,乐中耀,宁心,孙浩,尹志勇,张波,周继红,王正国.侧碰假人颈部标定系统的实验研究[J].医用生物力学,2011,26(2):173-180

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  • 收稿日期:2010-10-09
  • 最后修改日期:2011-02-01
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