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xiuxing20
- 齿轮修形啮合刚度简化表示方法,在iso公式基础上改的-Modification gear meshing stiffness simplified representation, change the formula on the basis of the iso
gangdujisuan
- 石川公式法计算齿轮副事变啮合刚度,可以画一个周期-Deputy Incident 石川公 formula method to calculate gear mesh stiffness, you can draw a cycle
niehegangdu
- werbe能量法计算齿轮啮合刚度,与标准差距很小-computing gear mesh stiffness werbe energy method with standard gap is very small
gear-mesh-stiffness-Weber
- 基于Weber公式的齿轮啮合刚度计算公式(MATLAB版)-calculation of gear mesh stiffness based on Weber
gangdunihe
- 一对外啮合直齿圆柱齿轮副的综合刚度计算,用matlab编程计算-A pair of external spur gears meshing comprehensive stiffness calculation, calculation with matlab programming
Calculation-of-Rigidity
- 计算齿轮线性啮合刚度等若干参数,可用于机械设计课程设计。-Computing gear meshing stiffness of several parameters, such as linear, can be used in the design of mechanical design course.
CL
- 双齿啮合区啮合点公式中具体参数的计算 线性啮合刚度计算 啮合线位移与线性啮合刚度的关系 啮合时间与线性啮合刚度-Double tooth meshing zone meshing point formula to calculate the specific parameters Linear Stiffness Calculation Engaging relationship with the linear displacement line Stiffness En
gear_efficiency
- 自己按照相关文献编写的齿轮啮合效率计算。-gear pair meshing efficiency.
chengxu
- 小波变换进行变速箱故障诊断 首先将s1和s2信号时域谱(s1代表维修前的振动信号,s2代表维修后的振动信号),画出来进行对比,会发现s1信号的振动幅值会比较高;然后对s1和s2分别进行小波分解并画出各层的时域谱,只对比s1和s2分后的最高时域谱,s2更加的具有周期性,且幅值较小,s2周期性不够明显,且振动过于密集。分析完时域谱后开始分析频谱,首先对原信号s1和s2fft转换,得到频谱图,如图,然后再对小波分析后高频部分进行fft转换,做出频谱图。对比后我们发现,在f 2375HZ出(也就是齿
03
- 一个典型的文章齿轮啮合的外文文献,可以供大家一起学习交流。-A typical article gear meshing of foreign literature, can communicate for everybody to learn together.
lqnubon
- matlab程序,适用于求解螺旋锥齿轮啮合线分析,其中以对数螺旋齿轮分析-Matlab program, suitable for solving analysis of spiral bevel gear meshing line with logarithmic spiral gear is analyzed
xith
- matlab程序,适用于求解螺旋锥齿轮啮合线分析,其中以对数螺旋齿轮分析-Matlab program, suitable for solving analysis of spiral bevel gear meshing line with logarithmic spiral gear is analyzed
YVVK9
- matlab程序,适用于求解螺旋锥齿轮啮合线分析,其中以对数螺旋齿轮分析-Matlab program, suitable for solving analysis of spiral bevel gear meshing line with logarithmic spiral gear is analyzed
helical-gear
- 用MATLAB绘制斜齿轮全齿示意图,便于分析齿轮啮合情况-draw helical gear by MATLAB
gear- stiffness- calculation
- 根据齿轮基本参数,计算啮合刚度,得到具体的刚度值。(According to the basic parameters of the gear, the meshing stiffness can be calculated.)
电梯模拟器设计
- 在本实验中,电梯模拟器外部结构图如下图所示,共有4层,分别编号为1,2,3,4。采用电机驱动电梯箱体的上升与下降等操作,当电机正向旋转的时候,电梯保持上升状态,当电机反向旋转的时候,电梯保持下降状态,而当电机停止转动时,电梯也保持静止状态。由于电机不具备自锁功能,即在一定的确定电压下保持静止状态,因此要在物理上采用某种措施保证电机上述功能的顺利实现。经查阅相关的资料,我们发现可以利用蜗杆涡轮传动系统来实现,见下图,这就是利用阿基米德蜗杆的蜗杆传动,它具有传动平稳,振动、冲击和噪声均很小,而且可获
DynamicModel_zcplanetary
- 行星齿轮平移-扭转动力学方程的程序,时变啮合刚度,动态啮合力(Planetary gear dynamics program)
main_helical_dynamic
- 石川法求时变啮合刚度,只针对于圆柱齿轮,斜齿轮不能用(Applying the stone Sichuan method to solve the time-varying meshing stiffness of gear)
gear_stiff_shichun
- 采用Python语言开发的石川公式,计算齿轮对的时变啮合刚度。 函数设计良好,注释合理。(The ShiChun formula written in Python for gear pairs time-varying mesh stiffness calculation. The functions are well designed and commented.)
石川算法
- 通过石川算法计算齿轮的啮合刚度,专业算法(Ishikawa algorithm for calculating mesh stiffness)