交流电机绕组自动生成软件设计
交流电机绕组自动生成软件设计[20200211152813]
摘 要
本论文详细介绍了交流电动机的几种常见绕组的基本参数的计算公式、类型、特点,以及绕组图像的绘制原理,并运用MATLAB建立了交流电动机各种绕组的数学模型。根据这些基本参数的计算公式结合MATLAB语言进行程序设计,然后完成MATLAB的GUI界面设计。给出“极对数”和“槽数”两个输入框,以及“单层”和“双层”两个控件按钮。最后运行程序便可完成交流电机绕组的自动生成软件设计。
*查看完整论文请 +Q: 3 5 1 9 1 6 0 7 2
关键字:交流电机绕组编程GUI界面设计
目 录
1.绪论·····························································1
1.1交流电机绕组自动生成软件设计的背景·····························1
1.2 交流电机绕组自动生成软件设计现实意义··························1
1.3交流电机绕组的基本知识········································2
1.4MATLAB软件简介··············································3
1.5论文章节安排···················································4
2.交流电机绕组软件设计··········································5
2.1单层叠绕组····················································5
2.1.1单层叠绕组的概念与特点·····································5
2.1.2单层叠绕组的连接原理·······································6
2.1.3MATLAB编程流程···········································7
2.2整数槽双层叠绕组···············································9
2.2.1整数槽双层叠绕组的应用与特点·······························9
2.2.2整数槽双层叠绕组的连接原理·································9
2.2.3MATLAB编程流程··········································10 2.3数槽双层叠绕组·················································12
2.3.1分数槽双层叠绕组的应用····································12
2.3.2分数槽双层叠绕组的连接原理································13
2.3.3MATLAB编程流程··········································14
2.4MATLAB的GUI界面设计·······································14
2.5本章小结······················································16
3.交流电机绕组自动生成软件绘图功能的实现····················17
3.1单层叠绕组···················································17
3.2整数槽双层叠绕组·············································18
3.3分数槽双层叠绕组·············································19
3.4本章小结·····················································20
4.总结····························································21
参考文献·························································23
附录······························································24
致谢······························································40
1.绪论
1.1交流电机绕组自动生成软件设计的背景
当今世界,随着工业化水平的不断提高,电机已在工业生产和生活中被广泛使用,甚至可以说电机存在于所有有运动的地方。在世界各国高呼‘降低能耗’的口号下,全球已达成共识:高效率、低能耗,这才是电机产业可持续发展的正确道路。而真相是,电机产业很早以前就已踏上了“高效率、低能耗”的旅程。国家在电机工业的“十二五”计划中重点指出,“十二五时期要汇集精力围绕‘降低电机系统能耗项目’、装备制造调整和振兴,大力推进新能源领域技术,用最佳方案方法来开发一批高效率、低能耗的重要产品,处理掉一批效率欠佳的电机产品,加快产品更新的步伐。”
随着国家转变经济发展模式和连续不断的对产业结构进行优化,“高效率发电机”也逐步进入“危险区”并作进一步详细划分,和它对应的有《装备制造业调整和振兴规划》、《钢铁产业调整和振兴规划》、《关于印发节能产品惠民工程高效电机推广实施细则的通知》等国家政策的接连制定。首先是全国增加的电动机容量高幅度减小,为大电机的推广带来很大的挑战;其次是中小电机步入了“高效率、低能耗”状态,行业遭到重大冲击就在所难免了。我国电动机工业面对着市场和技术创新的两个重大挑战。
电机绕组就是用来产生发电机的感生磁场和感生电 流的结构部分,它是由许多导线按照一定的规律进行组合而成的,定子绕组 用来产生感生磁场,转子 绕组 用来产生感生电 流,它们是电机中相当重要的两个部分。
而电机绕组的种类非常的多,而且每种绕组绘制起来非常的麻烦。在当下电机被如此广泛运用的年代里,电机的需求量可以说是与日俱增的。随着世界不可再生资源的不断减少,电机产业要找准一条可持续发展道路,刻不容缓。那么这就更加迫切的要求我们能够开发出一种更为便捷的自动生成软件,这样才能提高我们的工作效率,节省在时间和人力两方面的消耗。
摘 要
本论文详细介绍了交流电动机的几种常见绕组的基本参数的计算公式、类型、特点,以及绕组图像的绘制原理,并运用MATLAB建立了交流电动机各种绕组的数学模型。根据这些基本参数的计算公式结合MATLAB语言进行程序设计,然后完成MATLAB的GUI界面设计。给出“极对数”和“槽数”两个输入框,以及“单层”和“双层”两个控件按钮。最后运行程序便可完成交流电机绕组的自动生成软件设计。
*查看完整论文请 +Q: 3 5 1 9 1 6 0 7 2
关键字:交流电机绕组编程GUI界面设计
目 录
1.绪论·····························································1
1.1交流电机绕组自动生成软件设计的背景·····························1
1.2 交流电机绕组自动生成软件设计现实意义··························1
1.3交流电机绕组的基本知识········································2
1.4MATLAB软件简介··············································3
1.5论文章节安排···················································4
2.交流电机绕组软件设计··········································5
2.1单层叠绕组····················································5
2.1.1单层叠绕组的概念与特点·····································5
2.1.2单层叠绕组的连接原理·······································6
2.1.3MATLAB编程流程···········································7
2.2整数槽双层叠绕组···············································9
2.2.1整数槽双层叠绕组的应用与特点·······························9
2.2.2整数槽双层叠绕组的连接原理·································9
2.2.3MATLAB编程流程··········································10 2.3数槽双层叠绕组·················································12
2.3.1分数槽双层叠绕组的应用····································12
2.3.2分数槽双层叠绕组的连接原理································13
2.3.3MATLAB编程流程··········································14
2.4MATLAB的GUI界面设计·······································14
2.5本章小结······················································16
3.交流电机绕组自动生成软件绘图功能的实现····················17
3.1单层叠绕组···················································17
3.2整数槽双层叠绕组·············································18
3.3分数槽双层叠绕组·············································19
3.4本章小结·····················································20
4.总结····························································21
参考文献·························································23
附录······························································24
致谢······························································40
1.绪论
1.1交流电机绕组自动生成软件设计的背景
当今世界,随着工业化水平的不断提高,电机已在工业生产和生活中被广泛使用,甚至可以说电机存在于所有有运动的地方。在世界各国高呼‘降低能耗’的口号下,全球已达成共识:高效率、低能耗,这才是电机产业可持续发展的正确道路。而真相是,电机产业很早以前就已踏上了“高效率、低能耗”的旅程。国家在电机工业的“十二五”计划中重点指出,“十二五时期要汇集精力围绕‘降低电机系统能耗项目’、装备制造调整和振兴,大力推进新能源领域技术,用最佳方案方法来开发一批高效率、低能耗的重要产品,处理掉一批效率欠佳的电机产品,加快产品更新的步伐。”
随着国家转变经济发展模式和连续不断的对产业结构进行优化,“高效率发电机”也逐步进入“危险区”并作进一步详细划分,和它对应的有《装备制造业调整和振兴规划》、《钢铁产业调整和振兴规划》、《关于印发节能产品惠民工程高效电机推广实施细则的通知》等国家政策的接连制定。首先是全国增加的电动机容量高幅度减小,为大电机的推广带来很大的挑战;其次是中小电机步入了“高效率、低能耗”状态,行业遭到重大冲击就在所难免了。我国电动机工业面对着市场和技术创新的两个重大挑战。
电机绕组
而电机绕组的种类非常的多,而且每种绕组绘制起来非常的麻烦。在当下电机被如此广泛运用的年代里,电机的需求量可以说是与日俱增的。随着世界不可再生资源的不断减少,电机产业要找准一条可持续发展道路,刻不容缓。那么这就更加迫切的要求我们能够开发出一种更为便捷的自动生成软件,这样才能提高我们的工作效率,节省在时间和人力两方面的消耗。
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