ISSN   1004-0595

CN  62-1224/O4

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基于传统滑雪板的可穿戴式雪上摩擦力在线测量装置研究

Wearable Snow Friction Harvester Based on Traditional Skis

  • 摘要: 竞技滑雪运动中雪上摩擦阻力影响运动员比赛成绩,而雪上摩擦影响因素众多,雪上摩擦阻力评测一直是冰雪竞技运动中的一大挑战. 本文中设计了1种基于传统滑雪板的可穿戴式雪上摩擦力在线测量装置,将多个三分量传感器合理布置在传统滑雪板上,通过有线连接的方式,结合数据采集卡,对3个分量的力信号进行监测、采集和保存,并通过终端电脑实时反馈力信号变化. 实验室静态测试中,该装置具有稳定的力学信号输出,并给出准确的摩擦系数测试结果. 在模拟雪场测试时,其能够准确地评估不同雪上减阻蜡的润滑性能及其耐磨性能,还能够监测自由式滑雪运动中的犁式制动和犁式转弯等常规技术动作. 该装置输出的力信号具有高精度和高灵敏度特性,为滑雪运动中雪上减阻蜡的性能评价、运动员施力动作监测等给出了1种可行方案.

     

    Abstract: The frictional resistance on snow surface has an impact on athletes' score ranking in competitive skiing. To reduce the drag force and improve the athlete performance, the studies on snow tribology and lubricating materials are desired urgently. Whereas, the friction on snow is influenced by a variety of factors including temperature, humidity and snow conditions, etc., and the precise friction test on snow surface, especially for the real skiing condition, is a challenging. This study presented a wearable snow friction in-situ measurement device for the traditional skis. The measurement device consisted of two parts, including friction signal acquisition device between skis and ski boots, and the data acquisition system arranged in the backpack carried by the tester. In the friction signal collecting device on the traditional skis, four three-component sensors were logically organized on the traditional skis. The force signals of the component were tracked, gathered, and saved via a wired connection in conjunction with a data acquisition card. The change in the force signal was fed back in real time via the terminal portable computer. In the laboratory test, the apparatus could give a stable force signal output that provided accurate friction coefficient test results and distinguished different actions. In the simulated ski field test, the snow friction in-situ measurement device was tested in a simulated indoor snow slope, it could correctly assess the friction force signal while skiing, and could effectively evaluate the lubricating on performance and anti-wear resistance feature of various snow waxes. By analyzing the specific force signal, and the device also could monitor the traditional technical movements of free style alpine skiing including the typical plough pizza braking or turning movements. Based on the high precision and high sensitivity of force signals, the apparatus provided a feasible solution for the evaluation and observation of an athlete's force-applying motions in daily training.

     

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