Abstract

Most of the current China-made equipment for imported products of simple imitation, so the steel bar bending and cutting machine key components of the in-depth study, on principle, structure, movement, functional analysis, to provide a simple and reliable structure, convenient operation, high integration degree, the use of a wide range of machinery is necessary.
Based on the analysis of bending and cutting machine technology and the requirements on the basis of key components, through theoretical analysis, put forward a kind of practical, simple, reliable and universal transmission system, the structure and other key components of the design principles, structure features in detail research and design; this paper analyses the mechanism of kinematic law, puts forward the feasible optimization structure meet the packaging technology; the key parts of the complete design method, designed to meet the needs of the market, promote enterprise innovation pace.
Based on the ANSYS software analysis of motion and structure design, the use of computer aided design and analysis methods, and can be applied to other types of machinery and equipment design and analysis.
Key Words: Steel bar bending and cutting machine, transmission, finite element analysis, structure design

目  录

摘  要 I
Abstract II
目  录 III
第1章 绪 论 5
1.1 钢筋弯曲切断机的概念 5
1.2 钢筋切断机特点 5
1.3 钢筋切断机分类 6
1.4 钢筋弯曲切断机的发展现状 6
第2章 钢筋弯曲切断机的工作原理 9
2.1 钢筋弯曲切断机的切断部分工作原理 9
2.2 钢筋弯曲切断机的弯曲部分工作原理 9
第3章 动力计算与选择 10
4.1弯曲钢筋需用力计算 10
4.2弯曲钢筋需用功率计算 10
4.3 切断钢筋需用力计算 11
4.4 切断钢筋需用功率计算 12
4.5 功率确定 12
第4章 主要结构设计 13
4.1 齿轮传动设计 13
4.2  轴的校核 19
4.3  键的校核 27
4.4 轴承的校核 28
4.4.1 初选轴承型号 29
4.4.2寿命计算 29
第5章 对典型零部件（齿轮）的有限元分析 32
5.1 应用有限元法研究齿轮的优势 32
5.2 齿轮参数及材料的确定 32
5.3 子模型法对齿轮应力集中问题的应用 33
5.3.1 三维齿轮模型的研究 33
5.3.2 二维齿轮模型的研究 36
5.4 P单元法在齿轮应力集中问题解决中的应用 38
总结与展望 41
参考文献 42
致 谢 44

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