Abstract
In order to enhance automotive ride performance, permanent magnets and magnetic valves were introduced in magnetorheological dampers and hence permanent magnets and magnetic valves introduced in magnetorheological damper’s air suspension was studied. First, on the basic principle of providing magnetic field by permanent magnets and adjusting damping force by magnetic valves, a novel permanent magnets and magnetic valves introduced in magnetorheological damper was designed. On the basis of equivalent surface current model, magnetic induction intensity activated by permanent magnets in damping channel was calculated, and damping force model was built based on hydromechanics theory. Damping force–displacement experiments and damping force–velocity experiments were carried out, and the theoretical model of permanent magnets and magnetic valves introduced in magnetorheological damper was verified. Then, physical and mathematical models of 4 degree-of-freedom permanent magnets and magnetic valves introduced in magnetorheological damper air suspension model were built. In order to enhance the controlling effects of the studied air suspension, optional moving operation, moving variation operation and operation of step size changing with fluorescein proportionality were introduced into glowworm swarm optimization algorithm, and glowworm swarm optimization proportional–integral–derivative controlling algorithm was designed. Finally, three experiments with input of impact road surface, sine wave road surface, and white noise road surface were carried out, and the experimental results verified that the working performance of permanent magnets and magnetic valves introduced in magnetorheological damper air suspension based on glowworm swarm optimization proportional–integral–derivative controlling algorithm was good.
Highlights
Automotive suspension systems, with a great impact on riding performance and handling performance, have always been one of the studying focuses, so that suspension systems have been studied from different aspects by scholars
In order to enhance controlling performance of PMMVMRD air suspension, a novel glowworm swarm optimization (GSO)-proportional– integral–derivative (PID) algorithm is designed and employed in this article to carry out control experiments of suspension system
In order to investigate the controlling effect of GSOPID algorithm used in PMMVMRD air suspension, sine wave road surface is employed to conduct simulation experiments, in which driving speed of automobile is 40 km/h
Summary
Automotive suspension systems, with a great impact on riding performance and handling performance, have always been one of the studying focuses, so that suspension systems have been studied from different aspects by scholars. In order to enhance the working performance of air suspensions, a permanent magnets and magnetic valves introduced magnetorheological damper (PMMVMRD) was designed, and its force models were built.
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