Interaction between a spray-insulation for phase separation in the winding head and the following impregnation process in insertion winding stators

2021 11th International Electric Drives Production Conference (EDPC) Pub Date : 2021-12-07 DOI:10.1109/EDPC53547.2021.9684196

A. Mahr, Barbara Hartz, J. Franke

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引用次数: 1

Abstract

As part of the secondary insulation system for insertion winding stators, a new method was developed to apply the interphase insulation in the winding head. This invention is based on a robot guided spraying process that applies a plastic insulation layer on to the respective winding parts in the stator winding head. With an initial material selection and the construction of a prototype machine, the basic suitability as an automatable phase isolation process was verified in a previous paper at FAIM2021. For the use of spray insulation in the complex general system of insulation of an electrical machine, the new insulation must meet similar requirements as the paper insulation frequently used up to now. It is therefore essential to analyze the interactions between the newly applied spray insulation and further downstream processes, such as subsequent impregnation. Therefore, in this paper, the mechanical and electrical properties of unimpregnated and impregnated spray insulation layers are analyzed using DoE studies.

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绕组头中用于相分离的喷雾绝缘与插入绕组定子中的浸渍过程之间的相互作用

作为插入绕组定子二次绝缘系统的一部分，提出了一种在绕组头中应用相间绝缘的新方法。本发明基于机器人引导喷涂工艺，将塑料绝缘层涂在定子绕组头的各绕组部件上。通过最初的材料选择和原型机的构建，FAIM2021上的一篇论文验证了作为自动化相隔离过程的基本适用性。在复杂的电机通用绝缘系统中使用喷雾绝缘，新型绝缘必须达到与目前常用的纸绝缘类似的要求。因此，有必要分析新应用的喷雾绝缘和进一步的下游工艺，如随后的浸渍之间的相互作用。因此，本文采用DoE研究方法对未浸渍和浸渍喷雾保温层的力学性能和电性能进行了分析。

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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2021 11th International Electric Drives Production Conference (EDPC)

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