摘要
随着风电装备向大型化、高精度化方向发展,风电塔筒的制造过程存在材料利用率低、焊接质量不稳定、装配检测效率低等问题。将数字孪生技术引入风电塔筒智能制造流程,构建物理实体与虚拟模型的实时映射,并在材料预处理与焊接成型两个核心阶段提出优化方案。对比实验数据显示,数字孪生技术能有效解决风电塔筒智能制造过程中的关键问题,提升制造质量与效率,为风电装备智能制造提供技术支撑。
With the development of wind power equipment toward large-scale and high-precision development,the manufacturing of wind tower faces pain points such as low material utilization,unstable welding quality,and low efficiency of assembly inspection.This paper introduces digital twin technology into the intelligent manufacturing process of wind tower,building real-time mapping between physical entity and virtual model,and proposes optimization schemes in two core stages:material preprocessing and welding forming.Comparative experiment data show that digital twin can effectively solve key problems in wind tower intelligent manufacturing,improving both quality and efficiency,and providing technical support for intelligent manufacturing of wind power equipment.
作者
裘学强
QIU Xueqiang(PowerChina Sinohydro Engineering Bureau 4 Co.,Ltd.,Xining 810007)
出处
《现代制造技术与装备》
2025年第12期159-161,共3页
Modern Manufacturing Technology and Equipment
关键词
数字孪生
风电塔筒
智能制造
digital twin
wind tower
intelligent manufacturing
