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有槽棍,一种古老的振动示范器。

The Notched Stick, an ancient vibrot example.

机构信息

Department of Civil, Environmental and Mechanical Engineering (DICAM), University of Trento, Trento, Italy.

出版信息

PLoS One. 2019 Jun 26;14(6):e0218666. doi: 10.1371/journal.pone.0218666. eCollection 2019.

DOI:10.1371/journal.pone.0218666
PMID:31242233
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6594746/
Abstract

An intriguing simple toy, commonly known as the Notched Stick, is discussed as an example of a "vibrot", a device designed and built to yield conversion of mechanical vibrations into a rotational motion. The toy, that can be briefly described as a propeller fixed on a stick by means of a nail and free to rotate around it, is investigated from both an experimental and a numerical point of view, under various conditions and settings, to investigate the basic working principles of the device. The conversion efficiency from vibration to rotational motion turns out to be very small, or even not detectable at all, whenever the propeller is tightly connected to the stick nail and perfectly axisymmetrical with respect to the nail axis; the small effects possibly observed can be ascribed to friction forces. In contrast, the device succeeds in converting vibrations into rotations when the propeller center of mass is not aligned with the nail axis, a condition occurring when either the nail-propeller coupling is not tight or the propeller is not completely axisymmetrical relative to the nail axis. The propeller rotation may be induced by a process of parametric resonance for purely vertical oscillations of the nail, by ordinary resonance if the nail only oscillates horizontally or, finally, by a combination of both processes when nail oscillations take place in an intermediate direction. Parametric resonance explains the onset of rotations also when the weight of the propeller is negligible. In contrast with what is commonly claimed in the literature, the possible elliptical motion of the nail, due to a composition of two harmonic motions of the same frequency imposed along orthogonal directions, seems unnecessary to determine the propeller rotation.

摘要

一个有趣的简单玩具,通常被称为缺口棒,被讨论为一个“振动器”的例子,这是一种设计和制造的设备,旨在将机械振动转换为旋转运动。该玩具可以简单地描述为一个螺旋桨通过钉子固定在一根棍子上,并可以自由地围绕它旋转。该玩具从实验和数值两个角度进行了研究,在各种条件和设置下,研究了设备的基本工作原理。当螺旋桨与棒钉紧密连接且相对于钉轴完全轴对称时,从振动到旋转运动的转换效率非常小,甚至根本无法检测到;可能观察到的小效果可以归因于摩擦力。相比之下,当螺旋桨的质心与钉轴不重合时,即当钉-桨的连接不紧或桨相对于钉轴不完全轴对称时,该装置成功地将振动转换为旋转。螺旋桨的旋转可以通过钉的纯垂直振动的参数共振过程来诱导,也可以通过钉仅水平振动的普通共振来诱导,或者当钉的振动发生在中间方向时,通过这两种过程的组合来诱导。参数共振解释了即使螺旋桨的重量可以忽略不计,旋转也会开始的原因。与文献中通常声称的相反,由于沿正交方向施加的两个相同频率的谐波运动的组合,钉的可能的椭圆运动似乎对于确定螺旋桨的旋转是不必要的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0bd2/6594746/8b409aa85843/pone.0218666.g009.jpg
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