An ultrasonic cleaner for cleaning the tip of a sampling nozzle by reversed phase driving of two vibrating plates (Translated)

IF 0.4 Q4 ENGINEERING, MECHANICAL Mechanical Engineering Journal Pub Date : 2023-01-01 DOI:10.1299/mej.23-00349
Yosuke HORIE, Katsuhiko KIMURA, Akihiro NOJIMA, Hiroyuki TAKAYAMA, Kohei NONAKA
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Abstract

As a method for cleaning the nozzle of clinical analyzers with high cleaning efficiency, ultrasonic cleaning was selected because the cleaning mechanism can be miniaturized and its effect on dispensing accuracy is negligible. As for nozzle cleaning, it is necessary to meet two requirements: (i) suppress the wetting range of the nozzle inserted in the chamber of the ultrasonic cleaner and (ii) generate cavitation at a depth of a few millimeters from the liquid surface. To meet those requirements, a new ultrasonic cleaner with an L-shaped cleaning head for high-efficiency cleaning of the nozzle is proposed. The cleaning head is composed of two vibration plates at its tip to concentrate the sound pressure in the cleaning area, and the shape of the head enables the vibration phase of the ultrasonic-irradiation surfaces of the plates to be reversed with a single bolt-clamped Langevin-type ultrasonic transducer (BLT). The BLT with the proposed cleaning head has three resonant frequencies: that of the BLT, fBLT, that of the lower plate, fL-P, and that of the upper plate, fU-P. At fBLT, the BLT expands and contracts in the longitudinal direction. At fL-P and fU-P, deformation of each vibration plate is large. By setting the resonance frequencies in increasing order of magnitude, i.e., fL-P, fBLT, and fU-P, it is possible to reverse the phases of the two vibration plates by driving the BLT at fBLT. It was experimentally confirmed that the sound pressure can be concentrated in the cleaning area of the cleaning head by driving the BLT at fBLT.
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一种通过反相驱动两个振动板来清洗取样喷嘴尖端的超声波清洗机(翻译)
作为一种清洗效率较高的临床分析仪喷嘴清洗方法,由于清洗机构小型化且对点药精度的影响可以忽略不计,因此选择了超声波清洗。对于喷嘴的清洗,需要满足两个要求:(1)抑制插入超声波清洗机腔室的喷嘴的润湿范围;(2)在距离液体表面几毫米的深度处产生空化。为了满足这些要求,提出了一种新型的l型清洗头超声波清洗机,用于喷嘴的高效清洗。清洗头由两个振动片组成,在其尖端集中了清洗区域的声压,并且头部的形状使得单个螺栓夹紧的朗格万型超声换能器(BLT)可以反转超声片的超声照射面振动相位。所提出的清洗头的BLT有三个谐振频率:BLT, fBLT,下板,fL-P和上板,fU-P。在fBLT时,BLT在纵向上膨胀和收缩。在fL-P和fU-P处,各振动板变形较大。通过将谐振频率设置为递增数量级,即fL-P、fBLT和fU-P,可以通过在fBLT处驱动BLT来实现两个振动板的相位反转。实验证实,在fBLT处驱动BLT可以将声压集中在清洗头的清洗区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Mechanical Engineering Journal
Mechanical Engineering Journal ENGINEERING, MECHANICAL-
自引率
20.00%
发文量
42
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