重型机械Issue(6):43-48,6.
钢管端面铣头倒棱机夹紧机构的优化设计
ADAMS-based optimal design for clamping mechanism of full-automatic chamfering machine for steel pipe end milling
芮成杰 1柴晓艳2
作者信息
- 1. 天津理工大学天津市复杂系统控制理论及应用重点实验室,天津300384
- 2. 天津理工大学机械工程学院,天津300384
- 折叠
摘要
Abstract
Clamping mechanism is an important component part of chamfering machine for steel-tube end milling. It can ensure the steel-pipe in chamfering process not to vibrate, move or rotate by tightly clamping the steel pipe. The parameter relationship between each link is analysed in this paper. The optimal design for clamping mechanism was conducted by means of ADAMS software. Through the analysis, it is more appropriate to optimization under the conditions of not changing the overall size of the clamping mechanism but only changing the internal rod dimention. The maximum elevating power is decreased by 36. 0% and the average elevating force is decreased by 21. 0%. It significantly saves the energy.关键词
优化设计/钢管端面倒棱机/夹紧机构/仿真分析模型Key words
optimal design/ steel pipe end-face chamfering machine/ clamping mechanism/ simulation analysis分类
矿业与冶金引用本文复制引用
芮成杰,柴晓艳..钢管端面铣头倒棱机夹紧机构的优化设计[J].重型机械,2012,(6):43-48,6.
