双摆线滚子行星传动是一种新型的传动装置。
Planetary drive with double trochoid and free rollers is a new type of drive.
链条圆弧齿行星减速机是一种新型行星传动。
Chain arc tooth planetary reducer is a new type of planetary transmission.
对摆线钢球行星传动进行了较全面的类型分析。
The type analysis of the cycloid steel ball planetary transmission is made.
摆线针轮行星传动由于其显著的优点而得到广泛的应用。
Cycloid gears gearing have found its wide application because of its advantages.
这些特征使偏心轮推杆行星传动在工业上具有广阔的应用前景。
All of these characteristics make the eccentric wheel pushrod planetary transmission have wide application prospects on industry.
本文对行星传动的设计和强度计算等内容作了详细的分析论述。
This paper describes and analyzes the design and strength calculation of planetary transmission.
本文研究了一种新型行星传动——滚锥齿超环面行星蜗杆传动。
The paper researches a new type mechanical transmission mechanism-the Rolling cone-type toroidal drive.
本文分析了二齿差摆线针轮行星传动的啮合原理和强度计算方法。
The transmission theory of the two teeth difference cycloid gearing planetary drive is analysed.
所以偏心轮推杆行星传动具有重要的研究价值和广阔的应用前景。
The eccentric wheel handspike planetary transmission has important research value and broad application prospects in industry by all of these characteristics.
论文着重对新型锥形摆线行星传动啮合副的制造关键技术进行研究。
The paper focuses on the manufacturing key technologies of new conic cycloidal gear planetary transmission's mesh parts.
摆线;钢球;行星传动;接触力学;动态激励;固有特性;动态特性。
Cycloid; Ball; Planetary transmission; Contact mechanics; Dynamic excitation; Natural characteristics; Dynamic characteristics.
建立了单级2k - H直齿行星传动的纯扭转集中参数动力学模型。
A simplified purely torsional concentrated parameter model of a single stage 2k-h spur planetary gear transmission (PGT) is developed.
文中阐述了该封闭行星传动机构的传动比计算,受力分析和效率计算。
The calculations of transmission ratio. force and transmission efficiency are explained here.
研究分析了摆线钢球行星传动的滑动速度并推导出滑动速度计算公式。
The slide velocity of cycloid steel balltransmission is analyzed and the formula of slide velocity is deduced.
提出了一种分析摆线针轮行星传动中针齿与摆线轮齿间啮合力的新方法。
A new method is proposed for analysing the meshing force exerted between the pin teeth and the cycloidal gear teeth in the course of the cycloidal pin gear epicyclic transmission.
现有摆线针轮行星传动属于动轴传动,需要专门的输出机构、且传动效率低。
The existing cycloid and pin planetary drive is axis-live transmission, which needs specialized output with low transmission efficiency.
通过对行星传动机构的研究分析,说明其在采煤机及其他机械设备中的重要作用。
Through researches and analyses of planet transmission mechanism, this paper stories its important effects on every machinery equipment.
新型摆线凸轮活齿传动是一种内齿轮齿廓为摆线及其等距线的二齿差活齿行星传动。
The new cycloid cam sliding tooth transmission is a two-teeth difference sliding tooth planetary gearing with cycloid internal gear.
在摆线针轮行星传动家族中,FA型摆线针轮行星传动变速器是一种新的传动装置。
In the family of the cycloid drive, the fa cycloid-pin wheel planetary drive reducer is a new transmission device.
介绍一种新型斜盘式锥齿少齿差行星传动的传动比、角速度与角加速度等分析计算 。
Study on the new inner planar moving spur gear typed epicyclic gear transmission with few teeth difference;
推导出3k型效率计算十个公式,这十个公式也概括了差动传动和行星传动的效率计算。
Also ten efficiency calculation formulas of the differential and planetary transmissions of 3k type are given.
在渐开线少齿差行星传动中通常使用短齿,其齿根高与正常齿相同,而齿顶高小于正常齿。
The stub gear tooth is often adopted in the involute planetary gear transmission with a few tooth number difference.
本文中的新型内三环减速器是在渐开线少齿差行星传动的基础上开发的一种新型传动装置。
The three-ring internal gear reducer(TRIGR) in this article is a new type transmission which have been developed on the basis of involute few teeth difference (FTD) planetary transmission.
闭式行星传动可在体积小、重量轻和结构紧凑的条件下实现大传动比,高效率地传递大动力。
The closed planetary gear drive mechanism can achieve a high transmission ratio and a high efficiency in transmitting large power with small volume, light weight and compacted structure.
采用行星传动差速器的卧螺离心机存在很多不足,提出了用液压方式驱动卧螺离心机的方法。
Because planet differential gearing has some weakness someone suggests we can use hydraulic transmission to drive the horizontal screw decanter.
因此对行星传动机构的均载性能及影响行星轮间载荷分配的因素进行分析有着重要的现实意义。
Therefore, it is necessary to study the load average performance of Planetary Gear transmission and the influence of load allocation between Planetary Gears.
因此对行星传动机构的均载性能及影响行星轮间载荷分配的因素进行分析有着重要的现实意义。
Therefore, it is necessary to study the load average performance of Planetary Gear transmission and the influence of load allocation between Planetary Gears.
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