1.
Design of Involute Zero-Tooth-Difference Internal Gear Mechanism and Measure Method;
渐开线零齿差内啮合齿轮副的设计及测量方法研究
2.
Modification Coefficient Selection of the Involute Internal Gear with Zero-tooth-difference Mechanism and Machining Method;
零齿差内啮合齿轮副变位系数的选择及加工方法研究
3.
A Periodically Time-varying Mesh Stiffness Model for Spur Geared System Considering the Effect of Extended Tooth Contact
考虑延长啮合时齿轮副啮合刚度模型
4.
internal spur gear
内啮合圆柱齿轮,直齿内齿轮
5.
On Meshing Area of Meshing Pair of Oscillating-teeth End-face Harmonic Gear;
活齿端面谐波齿轮啮合副的啮合面积研究
6.
quiet internal gear pump
低噪声内啮合齿轮泵
7.
The Researches on Modification of Tooth Surface of End Face Harmonic Gear Drive of Oscillating Teeth;
活齿端面谐波齿轮啮合副齿面修形的研究
8.
One cog-wheel engages with another.
一齿轮与另一齿轮啮合.
9.
Study on the Meshing Characteristics and CAD Technique of Cycloidal Gear Pump;
内啮合齿轮泵啮合特性分析及CAD技术研究
10.
straight spur gear-on-gear pump
圆柱直齿[外啮合]齿轮泵
11.
Study on the Theory and Simulation of Cycloidal Pump;
内啮合摆线齿轮泵的理论研究与仿真
12.
Spin-forming numerical simulation of cup-shaped inner meshing gear
杯形内啮合齿轮旋压成形的数值模拟
13.
Kinematic analyse of inside engaged gear based on ADAMS
基于Adams/View的内啮合齿轮运动学仿真
14.
Gear A, at the end of the drive shaft, and gear B, on the countershaft, are in constant mesh.
齿轮A位于驱动轴的末端,齿轮B在副传动轴上,它们恒定啮合。
15.
When none of the sliding gears is in mesh with its countershaft gear, the gears are said to be in“ neutral.
如果没有变速齿轮组与副传动轴上的齿轮啮合,这时,就叫做空挡。
16.
A small cogwheel that engages or is engaged by a larger cogwheel or a rack.
小齿轮,齿杆啮合大齿轮或被大齿轮或齿条啮合的小齿轮
17.
Reliability Design of Involute Zero-tooth-difference Internal Gear Mechanism
渐开线零齿差内啮合齿轮机构的可靠性设计
18.
The Researches on the Specific Pressure and the Contact Stress of the End Face Harmonic Gear Drive of Oscillating Teeth;
活齿端面谐波齿轮啮合副的比压及接触强度的研究