文档介绍:XXXX大学
毕业设计(论文)
题目无轴承电机机构设计与悬浮控制
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xxxx年x月x日
摘要
本文在研究电机高速运转对机械轴承振动冲击大,机械轴承磨损快,大幅度缩短了轴承和电机使用寿命,为此用机械轴承来支承高速电机严重制约着电机向更高速度和更大功率方向发展。近 20 多年来发展起来的磁轴承( ic Bearing ) ,是利用磁场力将转子悬浮于空间,实现转子和定子之间没有机械接触的一种新型高性能轴承。
本文主要分析和阐述了机械结构的设计,其中包括无轴承电机的系统设计,无轴承电机的总体结构设计,无轴承电机主要零部件的结构设计,无轴承电机的主要零件结构设计,磁轴承的组成,磁轴承的基本工作原理,为实验室的建设奠定了理论基础。
关键词:无轴承电机传感器
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Abstract
   In this paper, the electrical high-speed operation in the study of mechanical vibration of the impact of large bearings, machinery bearings wear quickly, significantly reducing the service life of bearings and motors, for use of mechanical bearings to support high-speed electric motor with a serious constraint to a higher speed and the direction of more high-power. Developed over the past 20 years the ic bearing (ic Bearing), is to use ic force to the rotor suspended in space, the realization of the rotor and the stator there is no mechanical contact between a new type of high-performance bearings.
   This paper described the analysis and design of mechanical structure, including non-bearing motor system design, without bearing the overall structure of the electrical design, non-bearing motor design of the main ponents, non-bearing structure of the electrical design of the main parts, ic position, ic bearings the basic working principle for the construction of the laboratory has laid a theoretical basis.
    Keyword: non-bearing motor sensor
绪论·················································1
无轴承电机的研究意义与现状···································1
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第二章机械结构的设计
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引言·····················································6
无轴承电机的系统设计·