摘要摆线针轮行星传动具有传动比范围大、结构紧凑、可靠性高和寿命长等显著特点,在通用传动领域应用广泛。近年来随着工艺技术的不断完善,研究人员的不断深入,应用范围不断开拓,在工业机器人、雷达天线、精密机床、宇航设备、测量仪器等领域都有一定的研究和应用。目前,摆线传动在齿轮传动领域中占了很重要的地位,摆线传动以及提高其性能的创新和应用已经成为相关领域的研究热点之一。上世纪30年代由德国人Lorene Braren发明摆线针轮行星传动减速器以来,摆线传动由于很难在其它传动形式中保持摆线针轮传动的诸多优良特性,目前摆线传动的传动形式还局限于少齿差行星传动的范畴。本文在分析一种新型摆线传动的基础上,进行摆线行星传动的基础研究。53206

论文主要研究工作如下:

(1)以新型曲面摆线传动为例,进行曲面摆线传动的基础理论研究,包括啮合原理、啮合特性,几何参数,以及曲面摆线传动的传动方式等;

(2)对该新型曲面摆线传动啮合副三维建模,研究其啮合优缺点;通过运动仿真,研究其啮合的表现形式。

毕业论文关键词:摆线行星运动,理论研究,三维建模,运动仿真。

Abstract Cycloid pin gear planetary drive with a wide range of transmission ratio, compact structure, high reliability and long life and other significant characteristics, widely used in general drive field. In recent years, as the technology continues to improve, the researchers in-depth, application scope and constantly open up, there are some research and application in the field of industrial robots, radar antenna, precision machine tools, aerospace equipment, measuring instrument. At present, the cycloid transmission accounted for a very important position in the field of gear, cycloid drive and improve the innovation and application of its performance has become one of the research hotspots in the related field. However, since the 30's of the last century by the German Lorene Braren proves that the circular arc and Cycloidal Tooth profile as conjugate curves for transmission, fully meet the fundamental theorem of tooth profile and meshing, since the invention of the cycloid planetary reducer, cycloid drive because it is difficult to keep many excellent features of cycloidal needle wheel drive in the drive form, the transmission form cycloid drive is limited to a few teeth difference planetary transmission. Based on the analysis of a new type cycloid drive, basic research of cycloidal planetary transmission.

The main research work is as follows:

(1)On the model surface cycloid transmission as an example, research on the basic theory of surface cycloid drive, including meshing, meshing characteristics, geometry, and surface cycloid drive transmission;

(2)On the model surface cycloid meshing pair of 3D modeling, study the advantages and disadvantages of the engagement; through the movement simulation, forms of engagement.

Keywords: cycloid planetary motion, theory research, 3D modeling, motion simulation.

目录

第一章 绪论···1

 1.1课题来源和意义···1

 1.2国内外摆线传动研究现状···1

 1.3论文的主要研究内容···3

第二章 理论研究···4

 2.1新型摆线传动原理·4

 2.2摆线轮轮廓方程···5

2.2.1摆线轮齿廓曲线的两种方法·7

2.2.2两种方法间的关系·8

 2.3连续性分析··12

 2.4基本几何关系13

 2.5啮合副受力分析··15

第三章 新型摆线传动装置机构设计···19

上一篇:GE-800-PV无人图书馆图书自动存取装置控制系统的设计
下一篇:VERICUT 虚拟制造环境的缸盖零件加工工艺设计与仿真

轮毂电机的行星齿轮减速器结构设计与分析

SolidWorks轮系支撑体低速轴...

曲面螺纹锥度套件数控加工工艺设计+CAD图纸

椭圆曲线曲面异型件3D建模...

行星轮组件自动装配机设计+CAD图纸

三坐标联动数控铣床异型...

solidworks摆线针轮减速器设计

神经外科重症监护病房患...

志愿者活动的调查问卷表

C#学校科研管理系统的设计

国内外图像分割技术研究现状

公寓空调设计任务书

10万元能开儿童乐园吗,我...

医院财务风险因素分析及管理措施【2367字】

承德市事业单位档案管理...

AT89C52单片机的超声波测距...

中国学术生态细节考察《...