机电工程技术2025,Vol.54Issue(15):45-50,6.DOI:10.3969/j.issn.1009-9492.2025.15.008
基于FANUC数控系统的模拟主轴实训装置设计与测试验证
Design and Testing Verification of an Analog Spindle Training Device Based on the FANUC CNC System
摘要
Abstract
To address the issue that the externally purchased YL569 CNC machine tool training platform only supports serial spindle control,making it difficult for students to intuitively compare and analyze the differences between analog and serial spindle control,this study aims to develop an open analog spindle training device aligned with the practical needs of CNC machine production and vocational education objectives.Using a FANUC CNC system and an Omron frequency converter,the research realizes control over spindle rotation,stop,and speed regulation,involving mechanical design of the spindle assembly test stand,electrical schematic design of the control device,development of PMC programs for the control system,and setting of CNC system parameters and frequency converter parameters.The project successfully achieves the coexistence of serial and analog spindle control modes on the YL569 training platform,constructing an open training platform with"a single hardware platform supporting dual-mode control".Compared with traditional training equipment,the transformation cost for a single unit is only 11,000 RMB,saving 100,000 RMB in costs compared to purchasing two separate devices.It provides a replicable transformation solution for upgrading the functional capabilities of CNC training equipment in vocational colleges.The device enhances students'in-depth understanding of spindle control principles,reducing the average troubleshooting time for spindle faults by 23 min.It also strengthens their comprehensive practical abilities in hardware connection,parameter debugging,and program development.关键词
模拟主轴/数控系统/变频器/实训装置Key words
analog spindle/CNC system/frequency converter/training device分类
信息技术与安全科学引用本文复制引用
董钟慧,黄建辉,温成卓..基于FANUC数控系统的模拟主轴实训装置设计与测试验证[J].机电工程技术,2025,54(15):45-50,6.基金项目
云南省教育厅科学研究基金项目资助(2023J1577) (2023J1577)
