关键词: 电驱动车桥；反拖性能；Romax；台架试验

Abstract: Due to its advantages of high efficiency and environmental protection, electric drive vehicle are gradually increasing in the commercial vehicle market, and electric drive axles have also become the current market development direction. Compared with traditional fuel vehicle, electric drive vehicle put forward higher requirements for the anti-traction performance of axle transmission system. In this paper, the working state of the main transmission system of the axle is studied by Romax analysis, and the structural design is optimized according to the analysis results and test data, and the axial displacement of the shell structure is reduced by 21.5%, the stress is reduced by 22%, and there is no shell damage. The actual test results are consistent with the simulation analysis results of the deformation trend and failure point, which proves the feasibility of using Romax to analyze the complex working conditions of the transmission system and the effectiveness of the optimization measures. It provides a theoretical analysis basis for the study of the anti-drag performance of the electric drive axle, and greatly saves the research and development cycle and cost.

Key words: electrically driven axles; anti-drag performance; Romax; bench test