Design and Implementation of Small Five-axis CNC Carving and Milling Machine Tool Based on Solidworks
-
摘要: 小型五轴数控雕铣机经典设计方法的周期长、成本高,因此应用先进设计方案解决以上问题显得尤为重要。本文首先探讨小型五轴数控雕刻机总体快速设计方案,涉及控制系统、硬件结构以及主要关键部件设计等;其次研究应用先进五轴线性插补算法;最后通过Solidworks等软件进行仿真设计,并通过零件的加工实现设备设计的可行性验证。Abstract: The classic design method of small five-axis CNC engraving and milling machine has long cycle and high cost. This paper first discusses the overall rapid design scheme of small five-axis CNC engraving machine, which involves the design of control system, hardware structure and main key components. Secondly, the advanced five-axis interpolation algorithm is studied and applied. Finally, the simulation design is carried out through Solidworks and other software, and the feasibility of equipment design is verified through the processing of parts.
-
Key words:
- five axis carved milling /
- interpolation algorithm /
- tilting mechanism /
- turntable /
- driving mechanism
-
[1] 陈秋亮.新型五轴联动数控机床关键部件的结构设计与优化[D]. 扬州:扬州大学,2013. [2] 罗奇亮.数控雕刻机控制系统研究及实现[D].西安:西安工业大 学,2010. [3] 徐铭,徐莉萍,张正义.基于PC的教学型数控雕刻机实验系统开 发[J].机床与液压,2009(1):151-153. [4] 孙智杰,高玉龙,腾一宁.微型三坐标数控铣床的设计[J].山东理 工大学学报(自然科学版),2008(11):72-74. [5] 王党利,宁生科,马保吉.基于MACH数控软件的三维雕刻机结构设计与实现[J].机械与电子,2010(8):27-30. -
点击查看大图
计量
- 文章访问数: 33
- HTML全文浏览量: 13
- PDF下载量: 0
- 被引次数: 0
下载: