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首页> 外文期刊>International Journal of Electrical Engineering Education >Development of remote monitoring and control system for mechatronics engineering practice: The case of flexible manufacturing system
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Development of remote monitoring and control system for mechatronics engineering practice: The case of flexible manufacturing system

机译:机电工程实践远程监控系统的开发:柔性制造系统的案例

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摘要

The purpose of this study is to design a test set with remote access so that it can be used in laboratory applications in a multidisciplinary engineering education. The test set equipment used in the study consists of work stations that belong to the flexible manufacturing system, which is designed by the Festo Didactic Company. The flexible manufacturing system is a didactic set for mechatronics training. It can be used with different configurations and training purposes. In this study, the flexible manufacturing system set has nine work stations with different functions from each other. These stations such as distributing, testing, processing, handling, sorting, etc. can be worked alone and together with several assembly line configurations. In the developed didactic model, the existing equipment of the system such as mechanical and electrical infrastructure was used. Control of all the stations was realized by designing PIC 18F4580 and 18F2585 microcontrollers-based hardware. Control area network was used as the communication protocol between the work stations of the flexible manufacturing system. Online monitoring and real-time control operations for all parameters of the designed system were performed over the software which was developed using the LabVIEW program. Users who are connected to the system via the Internet can control the system using the designed LabVIEW-based software. Furthermore, they can upload-download their programs which will be written by them to the system via the Internet, and they can see the results of their own operational scenarios. Thus, the system with its developed structure is not restricted to existing operational scenarios for students. Hence, it has gained flexibility by allowing students to try their programs remotely. Also, in order to obtain feedback about the designed structure of the didactic system, a survey, conducted on 29 engineering students, was realized. The presented structure of the mechatronic didactic system was found to be successful by the students who joined the survey.
机译:这项研究的目的是设计一个具有远程访问权限的测试仪,以便可以在多学科工程教育中的实验室应用中使用它。研究中使用的测试仪设备由属于柔性制造系统的工作站组成,该系统由Festo Didactic Company设计。灵活的制造系统是机电一体化培训的教学手段。它可以用于不同的配置和培训目的。在这项研究中,柔性制造系统集具有9个工作站,每个工作站的功能互不相同。这些工作站(例如分发,测试,处理,处理,分类等)可以单独使用,也可以与几种装配线配置一起使用。在开发的教学模型中,使用了系统的现有设备,例如机电基础设施。通过设计基于PIC 18F4580和18F2585微控制器的硬件,可以实现对所有工作站的控制。控制区域网络被用作柔性制造系统的工作站之间的通信协议。通过使用LabVIEW程序开发的软件,可以对设计系统的所有参数进行在线监视和实时控制操作。通过Internet连接到系统的用户可以使用设计的基于LabVIEW的软件来控制系统。此外,他们可以通过Internet将其编写的程序上载并下载到系统中,并且可以看到自己的操作场景的结果。因此,具有开发结构的系统不限于学生的现有操作方案。因此,它允许学生远程尝试他们的程序,从而获得了灵活性。另外,为了获得有关教学系统设计结构的反馈,对29名工科学生进行了调查。参加调查的学生发现所介绍的机电一体化教学系统的结构是成功的。

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