摘 要
本次设计机床为万能气门挺柱球面磨床,可实现自动研磨。用于研磨小型金相试件的平面。要求掌握气门挺柱球面磨床的加工原理、应用范围以及研究现状等背景内容,要求设计传动链的结构布置并设计关键零部件的结构尺寸,要求设计该机床的工作台并设计关键零部件的结构尺寸,要求设计该机床的上下研磨盘。要求设计该机床的上下主轴。绘图主要内容有上下研磨盘及主轴等关键零部件和机床的总体布置图等。
气门挺柱球面磨床主要由原动力、齿轮传动、蜗杆传动、工作台等部分组成。鉴于目前磨床设计中所存在的问题,以及现实条件的制约,该课题设计所制定的方案为:伺服电机——齿轮传动——蜗杆传动——工作台动作。在该传动方案中齿轮传动承受能力较高,传递运动准确、平稳。传递功率和圆周速度范围很大,传动效率高,结构紧凑。
关键字:气门挺柱,球面磨床,传动设计,结构设计
Abstract
The design of machine tools for the universal valve Tingzhu spherical grinding machine, can achieve automatic grinding. Used to grind the surface of a small metallographic specimen. It is required to design the structure of the transmission chain and design the structural dimensions of the key components. It is required to design the work table of the machine tool and design the structure of the key parts. It is necessary to design the structure of the transmission chain and design the structure of the key parts. Size, requiring the design of the machine up and down grinding disc. Requires the design of the machine up and down the spindle. Drawing the main contents of the upper and lower grinding disc and spindle and other key parts and machine layout of the overall plan.
The valve is mounted mainly by the original power, gear drive, worm drive, workbench and other components. In view of the current problems in the design of the grinder, as well as the constraints of the actual conditions, the design of the project designed for: servo motor - gear drive - worm drive - table action. In this transmission scheme, the gear transmission capacity is higher, the transmission movement is accurate and smooth. Transmission power and a wide range of peripheral speed, high transmission efficiency, compact structure.
Key words: valve tappet, spherical grinder, drive design, structural design
