摘要
为解决系统能耗高、响应特性差的问题,提出一种数控机床伺服驱动系统的电气参数整定与能效提升集成策略。通过优化位置环增益和速度环比例增益等电气参数,结合高效永磁电机与再生制动单元的应用,显著提升了系统能效。实验结果表明,优化后的电气参数不仅提高了系统的动态响应能力和定位精度,而且在负载变化和频繁启停的工况下增强了系统的稳定性与抗干扰能力。同时,能效监控系统的引入使得系统能效状态得到了实时反馈,并通过闭环调整提高了能量使用效率。这些成果为制造业节能提供了可行的技术路径,并验证了电气参数整定与能效提升集成策略在实际应用中的工程可行性和优越性。
To solve the problems of high energy consumption and poor response characteristics of the system,an integrated strategy for electrical parameter tuning and energy efficiency improvement of the servo drive system of computer numerical control machine tools is proposed.By optimizing electrical parameters such as position loop gain and speed loop proportional gain,combined with the application of efficient permanent magnet motors and regenerative braking units,the system’s energy efficiency has been significantly improved.The experimental results show that the optimized electrical parameters not only improve the dynamic response capability and positioning accuracy of the system,but also enhance the stability and anti-interference ability of the system under load changes and frequent start stop conditions.At the same time,the introduction of energy efficiency monitoring system provides real-time feedback on the system’s energy efficiency status and improves energy utilization efficiency through closed-loop adjustment.These achievements provide a feasible technical path for energy conservation in the manufacturing industry,and verify the engineering feasibility and superiority of the integrated strategy of electrical parameter tuning and energy efficiency improvement in practical applications.
作者
何海龙
张天虎
HE Hailong;ZHANG Tianhu(Gansu Polytechnic University,Tianshui 741001)
出处
《现代制造技术与装备》
2026年第1期191-193,共3页
Modern Manufacturing Technology and Equipment
关键词
数控机床
伺服驱动
自适应控制
numerical control machine tool
servo drive
adaptive control
