圆柱齿轮接触模式开发的快速迭代算法

Biqiang Xu
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引用次数: 0

摘要

齿轮负荷由啮合的齿轮齿传递。啮合齿面上的载荷分布直接决定了齿轮齿的应力状态和使用寿命。接触模式,齿轮齿接触压力分布,直接改变最大接触和弯曲应力,是驱动系统设计的关键。对于实际齿轮系,齿轮毛坯、轴承、轴承座等的变形会影响接触压力的分布。因此,它改变了局部接触压力和弯曲应力。为了准确地预测齿轮在使用中的接触压力和弯曲应力,在齿轮齿接触分析中需要对整个轮系部件的相互作用进行建模。对于一般用途的FEA包,它的计算效率不高。Transmission3D (Calyx)是专为齿轮接触模式模拟给定齿轮齿面几何形状。当接触模式偏离设计目标时,如何设计新的齿轮齿形是一个悬而未决的问题,本文对此进行了讨论。利用Excel宏调用逆工程概念和Boussinesq解实现齿轮齿面微几何设计。基于该方法的设计迭代速度快,成本低。
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Quick Iteration Algorithm for Cylindrical Gear Contact Pattern Development
Gear load is transmitted by the engaged gear teeth. The load distribution on the engaged tooth surfaces directly determines gear tooth stress status and service life. The contact pattern, gear tooth contact pressure distribution, directly alters the maximum contact and bending stresses, is critical for drive system designs. For a real gear train, the deformations of gear blank, bearing, housing, etc. contribute to contact pressure distribution. It consequently changes local contact pressure and bending stress. To accurately predict the gear contact pressure and bending stress in service, the interaction of whole gear train components needs to be modeled in the gear tooth contact analysis. It is not computational efficient for general purpose FEA packages. Transmission3D (Calyx) is designed for gear contact pattern simulation for given gear tooth surface geometry. When the contact pattern deviates from the design target, how to design a new gear tooth geometry is an open issue and discussed in this paper. Inverse engineering concept with Boussinesq solution is invoked and implemented through Excel macro for gear tooth surface microgeometry design. The design iteration based on this developed method is fast and low cost for gear pattern development.
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