In July Toyota unveiled a concept bicycle, the PXP, with a thought-controlled gear-shift mechanism.
七月份丰田首次发布了一款概念自行车PXP,它带有一个思维控制的传动移位机械装置。
Aim at the problem, this paper establishes the mathematical model of multipurpose optimization to made hoisting mechanism to occupy minimum space and planet gear to use minimum material.
针对这一问题,建立了以起升机构占用空间最小和行星齿轮减速机构用材最少为目标的多目标最优化数学模型。
As a new type magnetic transmission mechanism, Non-contact Permanent Magnetic Gear has special function that can transmit torque and power to closed area by magnetic field coupling.
永磁齿轮作为一种新型的磁力传动机构,具有能够向非导磁材料组成的封闭空间传递动力的特种功能。
A new type of exoskeleton mechanism has been developed by combination of parallelogram link and gear.
利用平行四边形连杆和齿轮的组合设计了一种外骨骼机构。
Roller gear CAM mechanism is a type of indexing device. It is widely used in various automatic machines because of large indexing Numbers, high indexing precision, reliable localization etc.
弧面分度凸轮机构是一种精密分度机构,因其具有分度数大、分度精度高、定位可靠等优点,被广泛应用于各种自动机械中。
As far as hoisting mechanism with planet gear inside reel to be concerning, it is a vigorous issue to scholars to alleviate weigh, decrease dimension and reduce cost.
在内藏式起升机构设计中,如何减轻重量,降低成本,减少占用空间等问题一直为同行所关注。
This paper analyzes the principle of the mechanism and its application in gear grinding machines.
本文分析了这种机构的原理及其在齿轮磨齿机中的应用。
The structure and makeup of active steering system, the operating principle and operating mode of dual planetary gear mechanism are introduced in detail.
详细介绍了主动转向系统的结构和组成,以及核心部件双行星齿轮机构的工作原理及工作模式。
The example shows that the design through the multipurpose optimization made the volume of planet gear mechanism and reel decrease substantially.
实例表明,通过多目标的优化设计,行星齿轮减速机构及卷筒体积得到大幅度减少。
Using this method, we can protract vector analysis atlas of planetary gear drive mechanism.
应用此方法,可定性地绘制出行星齿轮传动机构速度分析图谱。
We can understand clearly the components 'movement of planetary gear drive mechanism only by qualitative vector analysis.
仅通过定性速度分析便可清晰地了解行星齿轮传动机构中诸构件的运动形态。
This planetary gear mechanism will have good future because of its simple manufacture and convenient assembly.
这种行星齿轮机构的加工简单,装配方便,具有应用前景。
The working principle and the constructional characteristics of a gear link mechanism for the clearance adjustment of pressure rollers in rolling machinery are discussed in detail.
详细论述了用于辊压机械中的齿轮连杆机构调整压辊间隙的工作原理及结构特性。
Methods for solving number of degrees of freedom of planar mechanism are put forward by solving that of mechanism such as planar linkage mechanism, cam mechanism, gear mechanism, and so on.
通过对平面连杆机构、凸轮机构和齿轮机构等机构自由度数的求解分析,提出了准确求解平面机构自由度数的方法。
Cycloidal gear of four-rod mechanism is a species of novel combination mechanism.
摆线齿轮四杆机构是一类新颖的组合机构。
Spherical gear mechanism is a new type of gear which can transfer two-dimensional overall motion.
球齿轮机构是一种能传递空间二维运动的新型齿轮机构。
Appropriate pitch curve designing is a key of regularly working for non-circular planetary gear mechanism with variable center distance which can be used in low speed high torque hydraulic motor.
合理的节曲线设计是可用于低速大扭矩液压马达的变中心距非圆行星齿轮机构正常工作的关键。
The user can input link mechanisms, gear mechanism and CAM mechanism visually. The software can identify the types and number of basic mechanisms intelligently and record the path identifying.
该软件可以使用户可视化地任意输入连杆机构、齿轮机构、凸轮机构等,并能智能识别出机构中的基本机构的类型及其数目,并记录识别路径。
The roller gear cam mechanism is studied and the surface equations of various types of roller gear cam are acquired.
本文对弧面分度凸轮机构进行了研究,根据凸轮旋向、转向、头数的不同,推导了各种类型的弧面分度凸轮的通用方程;
As a result, it is necessary to research how spherical gear mechanism be utilized with flexible multi-link manipulator.
因而研究将球齿轮机构用于柔性多关节机械手很有必要。
This paper analyses the kinematics of simple planet gear set, speculate the transform mechanism and method of positive and minus planet gear set.
通过分析简单行星排的运动学,推导出了正、负号行星排基本构件相互转换的原理和方法。
Based on the characteristics of stable gear transmission and constant speed ratio, a kind of imperfect gear mechanism was studied in this paper.
基于齿轮传动平稳和恒速比的特点,文中研究了一种不完全齿轮机构。
The upper support includes unitary molded-in journals supporting components of gear mechanism.
上层的支持包括单一模在期刊,支持齿轮机构组成部分。
Gear mechanism is widely used in modern machinery.
齿轮机构在现代机械中应用十分广泛。
The results show that response frequency of gear mechanism will be reduced by gear backlash and multi-frequency phenomenon will occur.
计算结果表明,齿侧间隙的存在会降低机构的响应频率,并会产生多频现象。
The results show that response frequency of gear mechanism will be reduced by gear backlash and multi-frequency phenomenon will occur.
计算结果表明,齿侧间隙的存在会降低机构的响应频率,并会产生多频现象。
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