人体运动中机械功率的测定与解读：在测力计骑行中的应用

Determination and interpretation of mechanical power in human movement: application to ergometer cycling.

作者信息

van Ingen Schenau G J, van Woensel W W, Boots P J, Snackers R W, de Groot G

机构信息

Faculty of Human Movement Sciences, Free University, Amsterdam, The Netherlands.

出版信息

Eur J Appl Physiol Occup Physiol. 1990;61(1-2):11-9. doi: 10.1007/BF00236687.

DOI:10.1007/BF00236687

PMID:2289486

Abstract

Based on a model consisting of three rigid links, an instantaneous power equation has been deduced for ergometer cycling which shows a causal relationship between power liberated in joint rotation on the one hand and the rate of change of segmental energy plus the power transferred to the pedal on the other. The shape and magnitude of these two types of power have been calculated by measurements of pedal force and cinematographic analysis and the results show fair agreement between them. When cycling at a mean exercise intensity of 340 W at 90 rpm, less than 28 W appears to be lost in the (necessary) changes of segmental energies. It is suggested that power liberated in the joints should be judged as the source of power in the power equation. It is, therefore, proposed that this power should be defined as external power in this and other human movement.

摘要

基于一个由三个刚性连杆组成的模型，推导了测力计骑行的瞬时功率方程，该方程表明一方面关节旋转中释放的功率与节段能量变化率加上传递到踏板的功率之间存在因果关系。通过踏板力测量和电影分析计算了这两种功率的形状和大小，结果表明它们之间具有良好的一致性。当以90转/分钟的平均运动强度340瓦骑行时，节段能量的（必要）变化中似乎损失不到28瓦。建议将关节中释放的功率视为功率方程中的功率来源。因此，提议在这种及其他人体运动中将此功率定义为外部功率。

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人体运动中机械功率的测定与解读：在测力计骑行中的应用

Determination and interpretation of mechanical power in human movement: application to ergometer cycling.

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