| 1. | Cotal planetary transmission with magnetic clutch
柯达式电磁自动传送器 |
| 2. | Design of fuzzy reliability and optimization on planetary transmission
行星齿轮传动的模糊优化设计 |
| 3. | Parameterization of cycloid gear in fa planetary transmission of cycloidal needle - wheel
针摆传动摆线轮参数化设计 |
| 4. | Research on kinematics of prolate epicycloid planetary transmission and optimum replacing tooth profile by arc
长幅外摆线行星传动运动学研究及齿廓圆弧优化替代 |
| 5. | Research on fatigue strength reliability for the cycloid ball planetary transmission based on fuzzy theory
基于模糊理论的摆线钢球行星传动接触疲劳强度可靠性研究 |
| 6. | This paper researches a new type mechanical transmission mechanism - end face engagement cycloid steel ball planetary transmission
本文研究了一种新型行星传动? ?端面啮合摆线钢球行星传动。 |
| 7. | Method of force bearing analysis and finite element analysis on contacting state of tooth surface for new typed fa planetary transmission of cycloidal needle - wheel
新型摆线针轮行星传动受力分析方法与齿面接触状态有限元分析 |
| 8. | The different calculative formulas for meshing efficiency of drive in different condition are deduced . the deep analyses of pressure angle in cycloid steel ball planetary transmission are presented
从理论上研究分析了摆线钢球行星传动的啮合效率,推导了不同情况下摆线钢球行星传动啮合效率的计算公式。 |
| 9. | By means of analyzing the designing parameters of less tooth differenced planetary transmission mechanism with biasing crankshaft , it is pointed out that the meshing angle is a key factor which affects the transmission function of the mechanism
摘要通过对偏曲轴少齿差行星传动机构设计参数的分析,指出啮合角是影响机构传动性能的一个关键因素。 |
| 10. | The paper focuses on the theories and virtue prototypes technique of cycloid steel ball planetary transmission . on the base of deducing meshing theory , by simplifying the parameters and using computer software , the virtue digital prototype of cycloid steel ball planetary transmission is realized
在研究摆线钢球行星传动的结构组成原理和啮合传动原理的基础上,通过对摆线钢球行星传动的各参数进行简化处理,利用计算机软件完成了摆线钢球行星传动数字样机的建模仿真设计。 |
