Qingyun Guan, Chongzheng Wang, Yi Zhang, Lin Chen, Xiayi Yuan
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引用次数: 0
摘要
基于光滑粒子流体力学方法,在AVL PreonLab仿真软件中建立了前风挡下饰板系统的雨水仿真模型,发现原方案下空调进风口和雨刮电机风险较低,但机舱进水风险较大。考虑到密封棉耐用后密封效果减弱,水可能会流入机舱;其次,雨刮盖两侧的挡水条在 Y 方向的宽度不够,雨大时水会流入机舱。通过对优化方案的仿真分析,可以解决机舱进水的问题,在设计阶段提前发现问题,提出优化方案,降低整车开发成本,对整车水管理的发展具有重要的指导意义。
Rainfall simulation analysis of front windshield lower trim panel system based on SPH method
Based on the smooth particle hydrodynamics method, a rain simulation model of the front windshield lower trim panel system was established in AVL PreonLab simulation software, and it was found that the risk of air conditioning inlet and wiper motor is low risk under the original scheme, but the risk of water in the cabin is greater. Considering the weakening of the sealing effect after the durability of the sealing cotton, the water may flow into the cabin; secondly, the water barrier bars on both sides of the wiper cover are not wide enough in the Y direction, and the water will flow into the cabin when the rain is heavy. Through the simulation analysis of the optimization scheme, the problem of water in the cabin can be solved, and the problem can be found in advance at the design stage, and the optimization scheme can be proposed to reduce the development cost of the whole vehicle, which is an important guidance for the development of water management of the whole vehicle.
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