{$cfg_webname}
主页 > 机械机电 > 数控 >

螺纹轴车削加工及数控车削机床仿真的研究(CAD,CATIA,NC加工程序)

来源:56doc.com  资料编号:5D10055 资料等级:★★★★★ %E8%B5%84%E6%96%99%E7%BC%96%E5%8F%B7%EF%BC%9A5D10055
资料以网页介绍的为准,下载后不会有水印.资料仅供学习参考之用. 帮助
资料介绍

螺纹轴车削加工及数控车削机床仿真的研究(CAD,CATIA,NC加工程序)(任务书,外文翻译,设计说明书15000字,cad图纸1张,CATIA,NC加工程序,答辩PPT)
摘 要
   随着全球制造业竞争的日益激烈,先进制造技术的不断出现,现代数控加工技术的普遍应用,使得产品的加工周期大幅度缩短,产品的加工质量不断改善,加速了产品的更新换代,增强了产品的竞争力。因此数控加工技术的研究已成为研究重点。
在这个计算机技术发展迅速,新科技日新月异的信息社会中,制造业也发生着革命性的变化。计算机模拟、仿真技术省去了大量的工作量,大大节约了原材料成本,提高了生产效率。工厂里现在大部分机床使用的都是数控机床,数控加工出来的零件既符合外观及精度有要求,又方便操作者进行操作。掌握计算机制造技术已经是新时代我们势在必行的必须课。
   作者在查阅和搜索大量与本毕业设计相关资料的基础上,对数控加工进行研究,并在老师的耐心指导下,首先分析零件模型,根据零件的外形特点,确定加工方法。利用CATIA P3 V5R20进行数控加工程序的编制,设计出该零件的NC加工方法,并且尝试找出最合理的加工方法。从而进行零件的动态模拟数控加工。此次设计中以螺纹轴为加工对象,利用粗车,精车,切空槽,切沟槽,钻孔,钻螺纹孔等进行加工。最后,结合CATIA中设计好了的模型实例展现了VERICUT环境下数控加工仿真的全过程。

关键词:粗车,精车,CATIA,仿真,VERICUT

ABSTRACT
Since the competition of global manufacturing industry is increasingly intense, advanced manufacturing technologies appeared continuously. The general application of the modern Numerical Control Manufacturing technology, has made the processing cycle of the products shorten by a large margin, has improved the processing quality of the products, has accelerated the update of the products, and has strengthened the competitive power of the products. So the research of the process technology of numerical control has become the focal point of studying. 
The manufacturing method changes a lot with the development of the computer technology in the modern society. Computer simulation saves a lot of time for the workers and greatly saves the cost of raw materials. Also computer simulation increases production efficiency. At present, most of the factory machines are used in CNC machine tools. CNC machining parts achieved the requirement both in the appearance and in the accuracy. To master the computer manufacturing technology for the engineering working in the field of aviation is imperative.
After looking up plenty of relevant articles, author researched the process technology of Numerical Control. Under the guidance of the teacher's patience,author analysis the mold of the part at first and according to the shape characteristics of parts , assure the method of processing. Finally utilized CATIA P3 V5R20 carrying on characteristic modeling and carry on Numerical Control establishment to process procedure and designed NC processing method of the part and try to find out the most reasonable method of processing .Thus the dynamic simulation Numerical Control of carrying on the part is processed. Regarding thread spindle as the target of processing in this design . author has used Rough Turning operation, Profile Finish Turning operation, Recess Turning operation, Groove Turning operation, Drilling, Reverse Threading. Further,the whole process of NC simulation under VERICUT is shown combining with designed model instance in CATIA.

KEYWORDS: rough turning operation,profile finish turning operation,CATIA,simulation,VERICUT


二、研究主要内容
    本课题来源于《飞机结构件高效数控加工系统研究》项目,研究内容和研究方法上的要求是针对螺纹轴车削加工的特点,进行刀路规划,合理地划分加工区域、选择适合的加工方法。制成以提高加工精度兼顾效率的NC加工专用程序。
三、主要技术指标
1.完成指定翻译文献;
2.完成螺纹轴车削加工粗加工程编;
3.完成螺纹轴车削加工加工的程编;
4. 完成螺纹轴车削加工虚拟仿真加工及生成NC指令;

 

螺纹轴车削加工及数控车削机床仿真的研究
螺纹轴车削加工及数控车削机床仿真的研究
螺纹轴车削加工及数控车削机床仿真的研究
螺纹轴车削加工及数控车削机床仿真的研究
螺纹轴车削加工及数控车削机床仿真的研究
螺纹轴车削加工及数控车削机床仿真的研究


目录
第一章  绪论    9
1.1 课题研究的意义    9
1.2 CATIA软件的简单介绍    9
1.3 VERICUT软件的简单介绍    10
第二章  螺纹轴右端加工    11
2.1初始化CATIA加工环境    11
2.2 螺纹轴的粗加工    15
2.3 螺纹轴的精加工    23
3.4 端面加工    30
2.5 空槽加工    32
2.6沟槽加工    37
2.7 钻孔    42
2.8钻螺纹孔    46
第三章 螺纹轴左端加工    50
3.1 拷贝加工程序    50
3.2粗车    50
3.3精车    52
3.4切沟槽    53
3.5 加工螺纹    55
第四章 VERICUT数控仿真加工    58
4.1数控加工仿真技术概述    58
4.2 数控加工仿真技术的操作步骤    61
4.3 数控加工的发展趋势    62
4.4 VERCUT仿真加工步骤    63
第五章 总结与展望    74
5.1 论文总结    74
5.2 后续展望    75
参考文献    77
致谢    78
毕业设计小结    79
 

推荐资料