Pancho Dachkinov1, Shintaro Kasai1, Kohei Tanaka1, Hiroaki Wagatsuma1,2
1Kyushu Institute of Technology, 2-4 Hibikino, Wakamatsu-Ku, Kitakyushu,
808-0196, Japan
2RIKEN CBS, Japan
pp. 59–65
ABSTRACT
Recently, 3D printed compliant mechanisms have been expected not only in
engineering purposes, but also in supportive devices of human motions especially
for human joint problems. On the other hand, the establishment of a systematic
design principle is the issue to provide an actual solution for the target
body problem, i.e. the personalization. In the present study, we proposed
a systematic method to design flexible bars to reduce the burden of the
human joint. The proposed concept was verified in computational analyses
and the 3D printer productions were demonstrated in an actual implementation
as prototypes. In computational analyses, larger deformations of the bars
were analyzed to absorb the stress occurring a flexing action in joint’s
motion. Theoretical analysis and experiments were demonstrated its flexibility
and support functions during the flexion and extension of the knee motion.
It indicates that high importance of the geometrical analysis of the orthosis
design in the sense of compliant mechanisms
Keywords:3D Printing, Flexible Barst, Compliant Mechanisms, Knee Supportive Orthoses,
Customized Design
ARTICLE INFO
Article History
Received 25 November 2021
Accepted 12 March 2022
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