Piezo inkjet drop-on-demand experimentation platform manufactured with rapid prototyping techniques enabling future technologies

2012 IEEE International Conference on Robotics and Biomimetics (ROBIO) Pub Date : 2012-12-01 DOI:10.1109/ROBIO.2012.6491140

M. Kagerer, Kenji L. Eiler, Thomas Ottnad, F. Irlinger, T. Lueth

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引用次数: 3

Abstract

A novel experimentation platform, which is based on a piezoelectrically driven inkjet printhead and on a support plate, is presented. A huge number of fluids has to be ejected due to the large variety of possible applications for inkjet printheads. Each fluid with its special characteristics usually requires a redesign of the printhead to be able to be ejected. This inkjet printhead is manufactured in a batch process with rapid prototyping techniques in order to be able to be adapted to new boundary conditions in a time saving manner. The manufacturing time only amounts less than 30 minutes. The inkjet printhead is inserted into a support plate. Here, it is electrically as well as fluidically connected without any soldering or gluing processes. Heating elements, temperature as well as pressure sensors, and a fluid reservoir are integrated. The reproducibility of experiments is thereby given. Furthermore, printing fluids with solid-liquid phase transition is possible. The inkjet printhead can be changed within only one minute.

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采用快速原型技术制造的压电喷墨按需实验平台使未来技术成为可能

提出了一种基于压电驱动喷墨打印头和支撑板的新型实验平台。由于喷墨打印头的各种可能应用，必须喷射出大量的流体。每种流体都有其特殊的特性，通常需要重新设计打印头，以便能够喷射。这种喷墨打印头是用快速成型技术批量制造的，以便能够以节省时间的方式适应新的边界条件。制造时间不超过30分钟。将喷墨打印头插入支撑板中。在这里，它是电和流体连接，没有任何焊接或粘合过程。加热元件，温度和压力传感器，以及一个储液器集成。实验的可重复性由此得到保证。此外，具有固-液相变的打印流体是可能的。喷墨打印头可以在一分钟内更换。

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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2012 IEEE International Conference on Robotics and Biomimetics (ROBIO)

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