摘要
针对特种车辆传动系统关键组成部件桥传动箱,通过分析其具体组成结构以及各零部件之间的关系,结合经验将模型简化为相对应的分系统模型,在SimulationX系统中通过构建各个分系统模型间的关系,并将零部件的关键工艺参数赋予各分系统,最终建立桥传动箱系统模型。结合桥传动箱实测数据及物理试验相关标准,对系统模型的参数进行调整并仿真桥传动箱的基本性能,从而验证系统模型的准确性。在无需开展大量物理试验验证的前提下,快速实现复杂工艺条件和参数的优化,为企业新产品研发试制提供了科学有效的方法,为企业转型进入新领域同样提供了有力的支撑,能够支撑企业实现产品快速研发制造,缩短周期、降低成本,并进一步提高产品质量和可靠性,为企业带来巨大的经济效益。
Bridge transmission box is the key component of special vehicle transmission system.Through the analysis of its concrete composition structure and the relationship between the components,combined with experience,the model is simplified to the corresponding subsystem model.In simulation system,the bridge transmission box system model is finally established by establishing the relationship between each subsystem model and assigning the key technological parameters of components to each subsystem.Based on the measured data of the bridge transmission box and relevant standards of physical experiments,the parameters of the system model are adjusted and the basic performance of the bridge transmission box is simulated,so as to verify the accuracy of the system model.Without having to carry out a large number of physical test under the premise of the rapid realization of complex process conditions and parameters optimization,new product development for the enterprise provides a scientific and effective methods,for the enterprise transition into the new domain also provides a strong support,to support the enterprise to realize the development and manufacture products quickly,shorten the cycle,reduct cost,and further improve product quality and reliability,bring huge economic benefits for the enterprise.
作者
陈玮
马涛
杨羲昊
班永华
张磊
武荣国
高宇
CHEN Wei;MA Tao;YANG Xi-Hao;BAN Yong-Hua;ZHANG Lei;WU Rong-Guo;GAO Yu(State Key Laboratory of Smart Manufacturing for Special Vehicles and Transmission System,Baotou Inner Mongolia014030,China)
出处
《机电产品开发与创新》
2021年第4期74-76,共3页
Development & Innovation of Machinery & Electrical Products
