关键词: 空气弹簧；悬架隔振性；悬架冲击性；刚度优化

Abstract: In order to study the outstanding advantages of air spring in semi-active suspension, as well as the optimization strategy of air spring, this paper based on the vehicle dynamics model of a mature vehicle, firstly, establishes the damper control algorithm of skyhook damping control strategy, then establishes the corresponding air spring model. Secondly, according to the characteristics of the air spring, the reference stiffness of the air spring under different load conditions is designed, and comprehensively considered the suspension isolation performance and suspension impact performance to optimize the stiffness of air spring. Finally, the effectiveness of the optimization scheme is verified through simulation comparison with the basic passive suspension model. The result shows that under half load and full load conditions, the suspension isolation performance is improved by about 19.78% and 28.92% on cobblestone roads, and by about 15.12% and 21.52% on Belgian roads, the suspension impact performance is improved by about 54.55% and 60%. This research method is closely related to the engineering development and application of air springs, and can effectively reduce the development cycle and cost of air springs.

Key words: Air spring; Suspension vibration isolation; Suspension impact resistance; Stiffness optimization