设计题目: 热连轧转鼓式切头飞剪机设计
摘要
飞剪主要用来剪切定尺、切头、切尾、切取试样以及处理事故等,通常是安装在连续式轧机的轧制线上和连续式独立加工机组的作业线上。飞剪机是在轧件运行过中进行剪切,因而飞剪的结构、调整及控制比一般的剪切机要复杂,对设计和制造的要求也高。
本设计介绍了飞剪机特别是切头飞剪机在国内外的发展现状,同时提出了今后的发展趋势。还详细介绍了飞剪机的工作原理,以及转鼓式切头飞剪机的本体结构的详细设计。由于设计要求是在运动的过程中将轧件进行剪切,对设计制造的要求很高,所以本设计经过了详细的设计,从电动机的选择、减速器传动比的分配,到飞剪机转鼓部分的设计都进行了严谨的计算。对主要零部件进行了校核,保证了该飞剪机在轧钢生产线工作效率的最大化,工作安全可靠。
关键词:轧钢、飞剪、切头飞剪机、设计、有限元
Abstract
Flying shear is mainly used for shearing and cutting head, tail, harvesting specimens, accidents treatment and so on, which usually installed in continuous rolling mill of rolling production line and continuous independent processing unit production line. Flying shear machine is to shear in the process of running, therefore, the structure, adjustment and control of flying shear with high requirements of design and manufacture are more complex than general shear.
This paper introduces the design of the flying shear machine, especially the present development situation of head cutting flying shear machine at home and abroad , which puts forward the future development trend. Also this paper introduces the flying shear machine working principle in detail and the detailed design of main structure of drum type cutting head flying shear machine. The design requirements is to be rolling shear in the movement process ,which is high demand for the design and manufacture. So this design proceeded detailed design and strict calculation from the choice of motor, reducer transmission ratio distribution to the design of flying shear machine drum part. In order to ensure the reliability of this machine in the usage in the future, this design check main parts and ensure the flying shear machine work efficiency maximization in the steel rolling production line , and also work safety and reliability.
Key words: flying shear, rolling mill, cutting head flying shear, development trend, design and calculation
目录
1引言
2飞剪机的概述
2.1国内外飞剪机发展现状
2.2飞剪机的发展趋势
2.3飞剪机种类及特点
2.4转鼓式飞剪机
2.4.1工作原理
2.4.2 切头时剪刃的运动
2.4.3 切尾时剪刃的运动
3 方案的选择
3.1 设计要求
3.2 方案选择
4飞剪本体结构的设计
4.1机架底座的设计
4.2剪刃的设计
4.2.1材料的选择
4.2.2剪刃的结构设计
4.2.3剪刃的固定
4.2.4 剪刃的更换
5 设计计算
5.1电动机的选择
5.1.1电动机类型和结构的选择
5.1.2 电动机容量的选择
5.1.3 电动机型号的确定
5.1.4 分配传动比
5.1.5 运动和动力参数计算
5.2 转鼓的设计
5.2.1 材料的选用
5.2.2 转鼓结构的初步设计
5.3轴承的选择与寿命校核
5.3.1 轴承的选择设计
5.3.2 轴承寿命计算
5.4 齿轮的设计
5.4.1 基本参数选择
6.4.2 按齿面接触强度设计
5.4.3按齿根弯曲强度设计
5.4.4 几何尺寸的计算
6 转鼓的校核
6.1有限单元法简介
6.1.1 有限单元法历史发展
6.1.2有限元法分析计算的思路
6.1.3 ANSYS软件简介
6.1.4 ANSYS分析基本过程
6.1.5 ANSYS结构静力学分析的基本步骤
6.2 转鼓的校核分析
7飞剪机的三维造型
结论
致谢
参考文献