A novel mechatronic body weight support (BWS) system has been developed to provide precise body weight unloading for patients with neurological or other impairments during treadmill training. The system is composed of a passive elastic spring element to take over the main unloading force and an active closed-loop controlled electric drive to generate the exact desired force. Both force generating units, the passive spring and the active electric drive, act on the patient via a polyester rope connected to a harness worn by the patient. The length of the rope can be adjusted with an electric winch to adapt the system to different patient sizes. The system is fully computer controlled. At unloading loads of up to 60 kg and walking speeds of up to 3.2 km/h, the mean unloading error and the maximum unloading error of the presented BWS system was less than 1 and 3 kg, respectively. The performance was compared with those of two purely passive BWS systems currently being used by most other rehabilitation groups. This comprised counterweight systems and static BWS systems with fixed rope lengths. Counterweight systems reached mean and maximum unloading errors of up to 5.34 and 16.22 kg, respectively. The values for the static BWS were 11.02 kg and 27.67 kg, respectively. The novel mechatronic BWS system presented in this study adjusts desired unloading changes of up to 20 kg within less than 100 ms. Thus, not only constant BWS, but also gait cycle dependent or time variant oscillations of the desired force can be realized with high accuracy. Precise and constant unloading force is believed to be an important prerequisite for BWS gait therapy, where it is important to generate physiologically correct segmental dynamics and ground reaction forces. Thus, the novel BWS system presented in this paper is an important contribution to maximize the therapeutic outcome of human gait rehabilitation.

译文

:已开发出新型机电一体化体重支持(BWS)系统,以在跑步机训练期间为患有神经系统疾病或其他障碍的患者提供精确的体重减轻。该系统由一个被动的弹性弹簧元件(承担主要的卸载力)和一个主动的闭环控制电驱动装置组成,以产生确切的所需力。被动发条和主动电驱动两个力产生单元均通过连接到患者佩戴的安全带上的聚酯绳作用在患者身上。绳索的长度可以用电动绞盘调节,以使系统适应不同的患者体型。该系统完全由计算机控制。在最高60 kg的卸载负荷和最高3.2 km / h的步行速度下,所提出的BWS系统的平均卸载误差和最大卸载误差分别小于1 kg和3 kg。将该性能与大多数其他康复团体目前使用的两个纯被动BWS系统的性能进行了比较。这包括配重系统和具有固定绳索长度的静态BWS系统。配重系统的平均和最大卸载误差分别高达5.34和16.22 kg。静态BWS的值分别为11.02 kg和27.67 kg。这项研究中提出的新型机电一体化BWS系统可在不到100 ms的时间内将所需的卸荷变化调整至20 kg。因此,不仅可以实现恒定的BWS,而且还可以高精度地实现与步态周期有关的或所需力的随时间变化的振荡。精确和恒定的卸载力被认为是BWS步态治疗的重要前提,在步态治疗中,产生生理上正确的节段动力学和地面反作用力很重要。因此,本文提出的新型BWS系统是最大程度地提高步态康复治疗效果的重要贡献。

+1
+2
100研值 100研值 ¥99课程
检索文献一次
下载文献一次

去下载>

成功解锁2个技能,为你点赞

《SCI写作十大必备语法》
解决你的SCI语法难题!

技能熟练度+1

视频课《玩转文献检索》
让你成为检索达人!

恭喜完成新手挑战

手机微信扫一扫,添加好友领取

免费领《Endnote文献管理工具+教程》

微信扫码, 免费领取

手机登录

获取验证码
登录