基于PROFIBUS-DP总线的柔性制造系统的设计与研究
发布时间:2019-05-23 22:55
【摘要】:随着经济发展和人均消费水平的提高,人们对商品的需求不断增长,并且更加注重产品的更新和多样化。中小批量、多品种生产已成为当今机械制造业的一个重要特征,由此兴起并得到广泛应用的柔性制造系统(FMS)是一种高效率、高精度、高柔性的加工系统。同时将先进现场总线技术运用到柔性制造系统中,能够更好地克服传统意义上的通信难问题,使其更高效,更具柔性。目前,随着全球化市场的形成和发展,无论是发达国家还是发展中国家都越来越重视FMS的设计研发,因此它必将成为今后机械制造自动化发展的重要方向。 基于柔性制造系统的发展前景,有必要在教学中让学生了解这一方面的知识,为此以实验室西门子工控设备为研发平台,旨在完成对基于PROFIBUS-DP柔性制造系统的研制与开发将是本次设计的主要目的。本文首先在与传统柔性系统的分析比较后,制定出更具优势的基于PROFIBUS-DP总线的柔性系统总体设计方案。其次,在熟悉硬件设备结构和功能的基础上,通过STEP 7梯形图编程语言编写主站及各从站控制程序,从而实现下位机各基站的模块化设计。再次,是对物流系统和监控系统进行设计研发,其重点是使用STEP 7对系统进行硬件组态和使用组态王对监控画面进行绘制两个方面。最后,在整体设计完成时,将对系统进行综合调试,并给出调试结果和效果评价。 研究表明,基于PROFIBUS-DP总线的柔性制造系统能充分发挥现场总线的各种优点,从而很好地克服传统柔性制造系统的缺陷,对柔性制造技术的改善和提高起着积极的作用。而且一直以来,西门子工控产品在国内外有着较高的市场占有率,因此该课题对西门子工控产品及通信技术的应用研究有着非常重要的实际意义。
[Abstract]:With the development of economy and the improvement of per capita consumption level, people's demand for commodities is increasing, and more attention is paid to the renewal and diversification of products. Small and medium-sized batch and multi-variety production has become an important feature of mechanical manufacturing industry. (FMS), which is rising and widely used, is a kind of high efficiency, high precision and high flexibility machining system. At the same time, the application of advanced field bus technology to flexible manufacturing system can better overcome the communication difficulty in the traditional sense, and make it more efficient and flexible. At present, with the formation and development of the global market, both developed and developing countries pay more and more attention to the design and research of FMS, so it will become an important direction of the development of mechanical manufacturing automation in the future. Based on the development prospect of flexible manufacturing system, it is necessary for students to understand this knowledge in teaching. For this reason, Siemens industrial control equipment in laboratory is used as the research and development platform. The purpose of this design is to complete the research and development of flexible manufacturing system based on PROFIBUS-DP. In this paper, after analyzing and comparing with the traditional flexible system, a more advantageous overall design scheme of flexible system based on PROFIBUS-DP bus is worked out. Secondly, on the basis of familiar with the structure and function of the hardware equipment, the master station and each slave station control program are programmed by STEP 7 ladder diagram programming language, so as to realize the modular design of each base station of the lower computer. Thirdly, the logistics system and the monitoring system are designed and developed, which focuses on the hardware configuration of the system using STEP 7 and the drawing of the monitoring screen by Kingview. Finally, when the whole design is completed, the system will be debugged synthetically, and the debugging results and effect evaluation will be given. The research shows that the flexible manufacturing system based on PROFIBUS-DP bus can give full play to the advantages of the field bus, so as to overcome the defects of the traditional flexible manufacturing system and play a positive role in the improvement and improvement of flexible manufacturing technology. Moreover, Siemens industrial control products have a high market share at home and abroad, so this subject is of great practical significance to the application of Siemens industrial control products and communication technology.
【学位授予单位】:长安大学
【学位级别】:硕士
【学位授予年份】:2011
【分类号】:TH165
本文编号:2484310
[Abstract]:With the development of economy and the improvement of per capita consumption level, people's demand for commodities is increasing, and more attention is paid to the renewal and diversification of products. Small and medium-sized batch and multi-variety production has become an important feature of mechanical manufacturing industry. (FMS), which is rising and widely used, is a kind of high efficiency, high precision and high flexibility machining system. At the same time, the application of advanced field bus technology to flexible manufacturing system can better overcome the communication difficulty in the traditional sense, and make it more efficient and flexible. At present, with the formation and development of the global market, both developed and developing countries pay more and more attention to the design and research of FMS, so it will become an important direction of the development of mechanical manufacturing automation in the future. Based on the development prospect of flexible manufacturing system, it is necessary for students to understand this knowledge in teaching. For this reason, Siemens industrial control equipment in laboratory is used as the research and development platform. The purpose of this design is to complete the research and development of flexible manufacturing system based on PROFIBUS-DP. In this paper, after analyzing and comparing with the traditional flexible system, a more advantageous overall design scheme of flexible system based on PROFIBUS-DP bus is worked out. Secondly, on the basis of familiar with the structure and function of the hardware equipment, the master station and each slave station control program are programmed by STEP 7 ladder diagram programming language, so as to realize the modular design of each base station of the lower computer. Thirdly, the logistics system and the monitoring system are designed and developed, which focuses on the hardware configuration of the system using STEP 7 and the drawing of the monitoring screen by Kingview. Finally, when the whole design is completed, the system will be debugged synthetically, and the debugging results and effect evaluation will be given. The research shows that the flexible manufacturing system based on PROFIBUS-DP bus can give full play to the advantages of the field bus, so as to overcome the defects of the traditional flexible manufacturing system and play a positive role in the improvement and improvement of flexible manufacturing technology. Moreover, Siemens industrial control products have a high market share at home and abroad, so this subject is of great practical significance to the application of Siemens industrial control products and communication technology.
【学位授予单位】:长安大学
【学位级别】:硕士
【学位授予年份】:2011
【分类号】:TH165
【引证文献】
相关硕士学位论文 前1条
1 王银月;基于PROFIBUS的模块化制造系统的设计与开发[D];华东理工大学;2013年
,本文编号:2484310
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