Design and Fabrication of Adhesive Application System for Magnets in Motors

2023 4th International Conference on Electronics and Sustainable Communication Systems (ICESC) Pub Date : 2023-07-06 DOI:10.1109/ICESC57686.2023.10193106

S. Sanjeev Kumar, A.S Shree Arryaman, R. Suganthprabhu, D. Pritima, P. Arun Kumar

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Abstract

Electric Motors requires Permanent Magnets in them to function. The following paper explains the design, construction and critical analysis of an Adhesive applicant machine for magnets in rotor casings [1] [2]. Through the integration of both human and mechanical systems, this innovation addresses the problem of work efficacy in an industry. We used a scientific research model to analyze and answer the question. The industry we chose for our model is on a small scale and is very simple to work with and analyze for its full potential. Our main objective is to construct a cartridge-based method to load the workpiece into the machinery and to create the ideal end-effector system for Glue delivery on the specified path [3]. Compared to electromagnets, permanent magnets on a rotor can both simplify the design and improve the efficiency of electric machines. The absence of automated assembly techniques for large machinery is a limitation, too. The strategy for resolving this issue is building a cohesion environment where people and machines work as a unified unit capable of producing more products.

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电机磁体粘接系统的设计与制造

电动机需要永磁体才能运转。下面的文章介绍了一种用于转子外壳磁铁的涂胶机的设计、结构和关键分析。通过人力和机械系统的整合，这一创新解决了行业中工作效率的问题。我们使用科学研究模型来分析和回答这个问题。我们为模型选择的行业规模较小，并且非常容易处理和分析其全部潜力。我们的主要目标是构建一种基于墨盒的方法，将工件加载到机器中，并创建理想的末端执行器系统，以便在指定路径[3]上输送胶水。与电磁铁相比，转子上的永磁体既可以简化设计，又可以提高电机的效率。大型机械缺乏自动化装配技术也是一个限制。解决这个问题的策略是建立一个凝聚力的环境，在这个环境中，人和机器作为一个能够生产更多产品的统一单元工作。

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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2023 4th International Conference on Electronics and Sustainable Communication Systems (ICESC)

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