Inkjet Printable Actuators and Sensors for Soft-bodied Crawling Robots

Tung D. Ta, T. Umedachi, Y. Kawahara
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引用次数: 4

Abstract

Soft-bodied robots are getting attention from researchers as their potential in designing compliant and adaptive robots. However, soft-bodied robots also pose many challenges not only in non-linear controlling but also in design and fabrication. Especially, the non-compatibility between soft materials and rigid sensors/actuators makes it more difficult to design a fully compliant soft-bodied robot. In this paper, we propose an all-printed sensor and actuator for designing softbodied robots by printing silver nano-particle ink on top of a flexible plastic film. We can print bending sensors and thermal based actuators instantly with home-commodity inkjet printers without any pre/post-processing. We exemplify the application of this fabrication method with an all-printed paper caterpillar robots which can inch forward and sense its body bending angle.
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用于软体爬行机器人的喷墨打印致动器和传感器
软体机器人因其在设计柔顺性和适应性机器人方面的潜力而受到研究人员的关注。然而,软体机器人不仅在非线性控制方面,而且在设计和制造方面也面临许多挑战。特别是软材料与刚性传感器/执行器之间的不兼容性,使得设计完全柔性的软体机器人变得更加困难。在本文中,我们提出了一种用于设计软体机器人的全印刷传感器和执行器,该传感器和执行器是在柔性塑料薄膜上印刷银纳米颗粒墨水。我们可以使用家用喷墨打印机立即打印弯曲传感器和热致动器,无需任何预处理/后处理。我们以一种能够向前移动并感知其身体弯曲角度的全印刷纸履带式机器人为例,说明了这种制造方法的应用。
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