一种采用丝杠机构的紧凑型皮肤剪切装置

2019 IEEE World Haptics Conference (WHC) Pub Date : 2019-07-01 DOI:10.1109/WHC.2019.8816105

P. Sreetharan, A. Israr, Priyanshu Agarwal

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引用次数: 2

摘要

提出了一种基于丝杠机构的皮肤剪切驱动器。丝杠机构简单，可靠，提供更少的组件，并适应到紧凑的形式因素。我们展示了单个装配单元的机械设计，并在单个手持设备中实现了多个单元。我们在一个基于仪器的测试和一个初步的用户研究中评估了执行器。试验表明，在无负载情况下，执行器的性能与开环控制方案相匹配。性能随着负载而恶化，特别是当需要更快和高振幅冲程时。用户研究表明，皮肤剪切的信息吞吐量可与手部三个数字的振动相媲美。研究表明，具有高效机构的小型紧凑致动器(~5g)可以提供位移(>3mm)和力(>1N)，从而容易区分皮肤剪切线索。

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A Compact Skin-Shear Device using a Lead-Screw Mechanism

We present a skin-shear actuator based on the lead screw mechanism. The lead screw mechanism is simple, reliable, offers fewer components, and accommodates into compact form- factors. We show mechanical design of a single assembly unit and implement multiple units in a single handheld device. We evaluate the actuator in one instrumentation-based test and one preliminary user study. Tests show that the actuator performance matches with the open-loop control scheme when no load is placed on the actuator. The performance deteriorates with loading, particularly when quicker and high amplitude stroke are required. The user study shows that information throughput with the skin-shear is comparable to vibrations through three digits on the hand. It is shown that small compact actuators (~5g) with efficient mechanisms can render displacements (>3mm) and forces (>1N) for easily differentiating skin-shear cues.

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2019 IEEE World Haptics Conference (WHC)

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