机床与液压
機床與液壓
궤상여액압
Machine Tool & Hydraulics
2015年
16期
55-57
,共3页
球面磨床%受力分析%动态模拟
毬麵磨床%受力分析%動態模擬
구면마상%수력분석%동태모의
Spherical grinder%Force analysis%Dynamic simulation
针对SMG系列球面磨床的磨削工况,分析了典型球面磨床的磨削力、磨削侧向分力和顶尖压紧力。运用AN?SYS Workbench软件的Transient Structural瞬态动力学模块对球面磨床的磨削侧向分力和上顶尖压紧力进行动态模拟,验证了理论分析的正确性。文中的研究工作为机床的整体布局及后续零部件结构优化奠定了基础。
針對SMG繫列毬麵磨床的磨削工況,分析瞭典型毬麵磨床的磨削力、磨削側嚮分力和頂尖壓緊力。運用AN?SYS Workbench軟件的Transient Structural瞬態動力學模塊對毬麵磨床的磨削側嚮分力和上頂尖壓緊力進行動態模擬,驗證瞭理論分析的正確性。文中的研究工作為機床的整體佈跼及後續零部件結構優化奠定瞭基礎。
침대SMG계렬구면마상적마삭공황,분석료전형구면마상적마삭력、마삭측향분력화정첨압긴력。운용AN?SYS Workbench연건적Transient Structural순태동역학모괴대구면마상적마삭측향분력화상정첨압긴력진행동태모의,험증료이론분석적정학성。문중적연구공작위궤상적정체포국급후속령부건결구우화전정료기출。
Based on grinding conditions of the SMG series spherical grinding machine, grinding force, grinding lateral compo?nent of forces and top pressing force of the typical spherical grinding machine were analyzed. Using the transient dynamics module of the ANSYS Workbench software, dynamic simulation was done for grinding lateral component of forces and top pressing force between the grinding head and the sphere. The correctness of the theoretical analysis was verified. It lays foundation for subsequent machine’ s overall layout and parts structure optimization.
