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通过分析柔性制造单(FMC)元的类型、结构和工作原理,针对目前高校现有实验设备的现状,在具备工业机器人和数控机床两种设备的基础上,设计综合创新性实验:将工业机器人的自动上下料技术和数控机床加工技术有效地组合起来,设计与制造FMC。结果表明,该设计能有效地提高学生的动手能力、创新思维能力,同时也有效地整合了实验设备资源,拓展和提升了实验设备的功能。达到了综合实验集实用性、前沿性和创新性于一体的效果。
By analyzing the type, structure and working principle of flexible manufacturing single (FMC) element, aiming at the present situation of existing experimental equipment in colleges and universities, based on the two equipments of industrial robotics and numerical control machine tools, a comprehensive and innovative experiment is designed: The automatic loading and unloading technology and CNC machining technology effectively combine to design and manufacture of FMC. The results show that the design can effectively improve students’ practical ability, innovative thinking ability, but also effectively integrate the resources of experimental equipment, to expand and enhance the function of experimental equipment. Achieve the comprehensive experimental set of practical, cutting-edge and innovative in one result.