1) Microgear system
微齿轮系统
1.
Microgear system is a extremely important part in MEMS.
MEMS是21世纪具有代表意义的高科技,微齿轮系统是MEMS中极为重要的组成部分。
2) gear system
齿轮系统
1.
The numerical analysis method for solving dynamics differential equations of gear systems
齿轮系统动力学微分方程的数值分析方法
2.
The non-linear rotational vibration gear system was constructed by using LMS Virtual.
LabMotion为建模环境,建立了齿轮系统非线性扭转振动模型,通过用户自定义程序实现非线性函数的控制。
3.
Based on the nonlinear dynamic model of a single freedom gear system with clearance and time-varying mesh stiffness,the influence of the stiffness on the dynamics response of the gear system was analyzed.
基于含时变啮合刚度和间隙非线性单级齿轮系统的动力学模型,分析了系统响应的动态特性。
3) spur geared system
直齿轮系统
4) gear driving system
齿轮传动系统
1.
This paper introduced the rule of selecting the type of flying shears, driving system, cutting positon and electromotors; It emphatically described the viewpoint that gear driving system of flying shear should eliminate backlish mechanism while leaving suitable backlish.
介绍了在切头飞剪设计中,飞剪型式、传动系统、剪切位置、电动机的选择原则;并着重阐述了飞剪齿轮传动系统应消除齿轮齿侧间隙机构而留有适当齿侧间隙的观点。
2.
In recent years, the requirement of these fields, such as aeronautic, aerospace and robot, demands more on the accuracy, vibration, noise and reliability in the gear driving system.
齿轮传动系统实质是一个非线性系统,因此只有对它进行非线性的动力学分析和非线性振动控制研究,才能满足对齿轮传动系统提出的高精度、小振动和低噪音的要求。
5) Gear transmission system
齿轮传动系统
1.
Modeling and modal analysis for the torsional vibration of multi-stage gear transmission system;
多级齿轮传动系统扭振建模及模态分析
2.
Utilizing the correlated theory of parallel engineering and graph theory,let the relationship of precision design among every component parts of the gear transmission system be connected together to establish the relationship model.
利用并行工程和图论的相关理论,将齿轮传动系统中各个零部件之间精度设计的关系联系起来,建立了关系模型;以齿轮系统传动性能的要求作为零部件精度设计的主要设计目标,通过将系统各个零部件的误差进行归一化处理,推导出影响齿轮传动性能的齿轮转角误差,并将从输入轴到输出轴上的所有齿轮副及其零部件综合构成的传动链误差作为目标函数,利用模糊理论将各项经验参数进行模糊量化处理,把各精度的限制性条件和加工工艺成本作为约束条件,进行优化设计,获得最佳的零部件精度组合和准确的传动性能参数,指导传动系统设计。
3.
For mechanical fault in the gear transmission system difficult to diagnosis,an improved clustering method was presented based on the DBSCAN(Density-based spatial clustering of application with noise) by using the concept of grid processing.
这种算法通过对齿轮传动系统的故障信号进行测试、对故障类型进行了判定,对不同转速下齿轮传动振动信号进行谱熵计算、并采用网格划分方法将其表示在二维和三维空间分布平面内,可以较好地将正常、裂纹、磨损等类型的故障进行聚类和识别,并通过试验验证表明能够对不同工作状态的齿轮传动信号进行可靠的聚类与区分,聚类率为96%以上。
6) Planet gear system
行星齿轮系统
1.
In order to meet low-speed maneuverability and flexibility and high-speed handling stability of multi-axle vehicle, double phase steering system based on turning angle sensor was designed with planet gear system.
为满足多轴汽车低速机动灵活性和高速操纵稳定性,利用行星齿轮系统设计了基于转角传感型的双相位转向机构,并在ADAMS/VIEW中建立了五轴车辆的多体动力学模型,进行了同相位角阶跃输入响应分析,逆相位转弯半径和行驶阻力分析。
补充资料:辛普森行星齿轮系统
辛普森行星齿轮系统是举世闻名的应用于轿车自动变速器的行星齿轮系统,以其设计者霍华德·辛普森的名字而命名。它是三速行星齿轮系统,能提供三个前进档和一个倒档。其结构特点是:前后两个行星齿轮共用一个太阳轮。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条