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完整论文 摘 要 压力机主要用于金属塑性成形加工。
它是众多机械加工装备中很重要的一种。
它已经应用到国民经济的各生产部门中。
伴随着经济的发展,冲压机本身已经发生了很大的变化,它已经从以前单一的机械压力机发展到包括数控、液压在内的多种压力机。
本次设计的是机械压力机,主要是对压力机的执行机构和传动系统进行设计。
在传动系统方面,采用了皮带轮与齿轮的二级减速传动,其中的重点难点是飞轮的储能计算。
而执行机构则主要是采用计算机虚拟仿真技术,通过对执行机构的建模仿真进行运动分析。
此次设计的压力机为常规压力机,在中小企业中使用较广泛。
关键词:压力机;飞轮;数控;执行机构;传动系统全套图纸,加 153893706 ABSTRACT The press is mainly used in metal plasticity process. And it is one of most importantmachinery equipment. It already applied in many production departments of the nationaleconomy. With the development of economy punch press has been already having a verybig change in itself and it already developed from the sole mechanical press to many otherkinds of presses includes the numerical control the hydraulic pressure. This design is the mechanical press and I mainly design the press implementingagency and the transmission system in this paper. In the transmission system aspect themachine has mainly used the belt pulley and the gear transmission that is to say two levelsof reduction transmission and the key difficulty is the flywheel storing energy computation.But execution agency is mainly uses the Virtual Simulation technology and the movementanalysis can be carrying out by it. The press designed in this paper is a conventional machine and use widely in SMES.Keywords: Press;Flywheel;The Numerical ControlImplementing Agency Transmission System 目 录摘 要........................................IAbstract..............................................................Ⅱ第 1 章 绪论.................................................1 1.1 课题背景及意义...................................................1 1.2 国内外发展现状...................................................1 1.3 本文主要工作.....................................................3第 2 章 使用分析与方案的选择及确定............................4 2.1 使用分析.........................................................4 2.1.1 使用功能的要求................................................4 2.1.2 经济性的要求..................................................4 2.1.3 其它要求......................................................4 2.2 方案的确定.......................................................4 2.2.1 机构的方案确定................................................4 2.2.2 传动方案的选择................................................5 2 . 3 总体传动 方案 的确 定. . . . . . . . . . . . . . .. . . . . .. . . .. . . . . . . . .6 2.4 本章小结....................................................... 6第 3 章 执行机构的设计与计算..................................7 3.1 执行机构功率确定.................................................7 3.1.1 执行机构的力分析.............................................7 3.1.2 连杆最小直径的确定..........................................9 3.2 电动机的