小型通信设备和小物体移动消毒室的设计与优化

IF 1.9 Q3 ENGINEERING, INDUSTRIAL
J. Gálik, D. Varecha, M. Drbúl, R. Madaj, V. Konstantová
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引用次数: 1

摘要

摘要本文旨在让读者熟悉小型通信设备和小型物体移动消毒室的开发。新装置的概念设计和材料在新装置的设计过程中起着至关重要的作用。手稿主要基于以往的经验和不同的视角提出了一些概念。概念设计是在三维建模程序CREO Parametric 8.0中创建的。一个多标准的团队评估确定了这个想法的最合适版本。为了确定设备的尺寸和形状,使用了EinScan SP设备(3D扫描方法)。这篇文章的目的还在于建立一种合适的方法来生产原型,在快速原型中使用现有的生产方法和材料进行摩擦学研究。使用ALICONA Infinite Focus G5设备,对零件表面的参数进行了实验研究。文章的最后重点介绍了机械结构,并在ANSYS Workbench程序中对其进行了有限元分析。概念消毒装置的设计也适用于极端情况。在这个问题中,使用有限元分析优化了形状、壁厚、钢筋设计和其他必要的修改。从结果来看,最适合生产更多零件的材料可能不是最适合制造原型设备的材料。3D扫描、快速成型和FEM分析等工具可以“显著”帮助减少设备测试前的错误。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and optimization of the construction of a mobile disinfection chamber for small communication devices and small objects
Abstract This manuscript aims to familiarise readers with the development of a device for the construction of a mobile disinfection chamber for small communication devices and small objects. The conceptual design and the material of the new device play essential roles in the design process of a new device. The manuscript presents concepts based primarily on previous experience and different perspectives. The concept design is created in the 3D modelling program CREO Parametric 8.0. A multi-criteria team evaluation determined the most suitable version of the idea. For dimensioning and shape adaptation of the device was used EinScan SP device (3D scanning method). The article's aim was also to establish a suitable way of producing a prototype using tribological research in available production methods and materials within rapid prototyping. Using the ALICONA Infinite Focus G5 device, experimentally investigated the parameters characterising the surface of the parts. The end of the manuscript focused on the mechanical structure and subjecting them to FEM analysis in the program ANSYS Workbench. The design of the concept disinfection device was also for extreme cases of use. Within this issue was optimising shapes, wall thicknesses, reinforcement design and other necessary modifications using the FEM analysis. From the results, the most suitable material to produce a more significant number of parts may not be the most suitable material to create prototype devices. Tools such as 3D scanning, rapid prototyping, and FEM analysis can "significantly" help reduce mistakes before testing the device.
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来源期刊
Production Engineering Archives
Production Engineering Archives Engineering-Industrial and Manufacturing Engineering
CiteScore
6.10
自引率
13.00%
发文量
50
审稿时长
6 weeks
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