网学网电子机械编辑为广大网友搜集整理了:工业缝纫机机头结构及其数控加工工艺设计绩等信息,祝愿广大网友取得需要的信息,参考学习。
论文字数:10608,页数:16
工业缝纫机机头结构及其数控加工工艺设计
摘要:工业缝纫机行业已经制订了线迹型式标准,实现各种线迹的工业缝纫机的基本机构类型经过长期使用比较成熟,机构类型趋于定型。产品质量改善、品种发展、技术水平提高、更新换代则更多的表现在原有产品基础上持续不断的改进。机电一体化技术的应用,为产品渐进性、连续性的变革、创新提供更大的空间,但也必须以原有产品为基础,增加自动化、集成化或系统化的功能。要彻底改变目前工业缝纫机基本机构类型的可能性不大,即使像周期缝纫机那样用电子控制技术取代凸轮机构,那也只是控制方式的改变,达到简化机构的目的,并没有根本改变像钉扣机、锁眼机和套结机的基本功能结构类型。
本论文主要是主要对其中的一种缝纫机---套结机,对其机头的结构和加工工艺进行一系列的设计。对缝纫机的机头材料的选择和加工刀具的型号,材质进行分析确认,用AutoCAD画出机型的加工面,并设计夹具的可靠性,可行性,最后设计好加工工艺,根据加工工艺选好坐标原点,用FANUC系统对其工艺进行数控编程。最后将加工出来的机头,通过品检,组装,质检后,来确定加工的可行性。
关键词:结构设计;加工工艺FANUC系统;数控编程
Abstract:The industry sewing machine profession has already drawn up the line mark pattern standard,realizes each kind of line mark industry sewing machine basic organization type to pass through the long-term use quite to be mature, the organization type tends to the stereotypia. Product quality improvement, the variety development, the technical level enhance, the renewal then more performance continue the unceasing improvement in the original product foundation. Integration of machinery technology application, For the product gradation, the continuous transformation, the innovation provides a bigger space, but also must take the original product as the foundation, the increase automation, integrated or the systematized function. Must completely change the present industry sewing machine basic organization type the possibility not to be big, even if likes the cyclical sewing machine such with the electronic control technology substitution cam gear, that also is only the control mode change, achieved the simplification organization the goal, certainly not radically changes likes the nail catcher machine, make eyes machine and the set of knot machine basic function structure type. The present paper mainly is mainly to one kind of sewing machine --- set of knot machine, carries on a series of designs to its nose structure and the processing craft. And processes the cutting tool to the sewing machine nose material choice the model, the material quality carries on the analysis confirmation, draws the type with AUTCAD the machined surface, and designs the jig the reliability, the feasibility, finally designs the good processing craft, according to processes the craft to choose the origin of coordinates, carries on the numerical control programming with the FUNIC system to its craft. Finally will process the nose, passing will examine, the assembly, after the quality testing, will determine the processing the feasibility..
Keywords: Structural design; Processing craft FANUC system; Numerical control programming
目录
第1章 绪论 3
1.1工业缝纫机的背景和发展趋势 3
第2章 数控机床和加工中心的简介 4
2.1 数控机床的概述 4
2.2 加工中心的概念和特点 4
2.3 FANUC系统的特点 6
第3章 结构的设计和刀具的选择 7
3.1 1850套结机机头的材质的选择 7
3.2 绘制结构图 7
3.3 工件的定位 7
3.3.1 定位的含义 7
3.3.2 定位注意的问题: 7
3.4 夹具的设计和加工 8
3.4.1 夹具的设计 8
3.4.2 夹具的结构图 8
3.4.3 夹具的加工 8
3.5 刀具的选择 8
3.5.1 刀具的类型 8
3.5.2刀具的材料 10
3.5.3 刀具的选择与切削量的确定 11
第4章 数控加工工艺的设计和编程 13
4.1 数控加工工艺的设计 13
4.1.1 数控加工工艺设计主要内容 13
4.1.2 数控加工工艺内容的选择 13
4.1.3 制定加工工艺的步骤 14
4.1.4 加工工艺规程的作用 14
4.2 1850套结机的加工工艺流程卡 14
4.3 刀具数量的确定 14
4.4 手动编程 15
4.5 调机试做 15
第5章 总 结 15
致 谢 16
参考文献: 16
