木材科学与技术2025,Vol.39Issue(6):80-86,7.DOI:10.12326/j.2096-9694.2025063
基于曲面生成路径的实木异形零部件分类方法
Classification of Specially Shaped Solid Wood Components based on Generation Paths of Curved Surfaces
摘要
Abstract
The specially shaped solid wood components are subjected to cross-sectional processing for determining their cross-sectional characteristics.Based on the path of generating surfaces along the longitudinal extension of the cross-section,the surfaces can be divided into extruded surfaces and swept surfaces,which assist to achieve and precise matching of part surfaces with corresponding categories.Furthermore,based on the path of the cross-section rotating along the central axis to generate the surface,the surface can be divided into a rotating surface and a spiral surface,completing the matching of the part surface with the corresponding category,forming a rotating part and a spiral component.If both cross-section and longitudinal extension direction of a component are complex curves,it can be classified as a free-form surface matching the corresponding part surface,ultimately forming a free-form component.Simultaneously,the surfaces of different categories of components can be mathematically described to meet actual production needs.On this basis,this study examined the attribute indicators,including size,structure,process,and application scenarios,of existing specially shaped solid wood components,briefly explained the processing technology and applicable equipment of the classified components,and clarified the processing flow,which ensured that the precise classification results could guide production practice and provided theoretical basis and practical reference for the production optimization and efficiency improvement of customized solid wood furniture enterprises.关键词
实木异形零部件/分类方法/曲面数学描述/加工工艺Key words
specially shaped solid wood components/classification method/mathematical description for curved surfaces/processing technology分类
轻工纺织引用本文复制引用
张乾辰,熊先青..基于曲面生成路径的实木异形零部件分类方法[J].木材科学与技术,2025,39(6):80-86,7.基金项目
"十四五"国家重点研发计划课题"木家具大规模个性化智能制造关键技术及应用"(2023YFD2201501). (2023YFD2201501)
