Interconnected Vehicle Suspension
Smith M.C. and Walker G.W.
Proceedings of IMechE, Part D, Journal of Automobile Engineering, Volume 219, Pages 295-307, March 2005Abstract
This paper introduces a class of passive interconnected suspensions, defined mathematically
in terms of their mechanical admittance matrices, with the purpose of providing greater
freedom to specify independently bounce, pitch, roll, and warp dynamics than conventional (passive)
suspension arrangements. Two alternative realization schemes are described that are capable of
implementing this class (under ideal assumptions). The first scheme incorporates an interconnected
multilever arrangement consisting of four separate hydraulic circuits, which transforms the separate
wheel station displacements to bounce, pitch, roll, and warp motions. Four separate mechanical
admittances are connected across the transformed terminals of the multilever. The second scheme is
kinematically equivalent to the first but the multilever part consists of four modular subsystems to
achieve the same kinematic transformation. The purpose of the class is to allow a high degree of
independence between the modes of vehicle motion, e.g. low warp stiffness independent of front and
rear anti-roll stiffness. Practical issues that might be involved in implementing the realization schemes are discussed, as well as generalizations to two- and six-wheeled vehicles.
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BibTex Entry
- @Article{,
- author = {Smith M.C. and Walker G.W.},
- journal = {Proceedings of IMechE, Part D, Journal of Automobile Engineering},
- title = {Interconnected Vehicle Suspension},
- year = {2005},
- month = {March},
- pages = {295-307},
- volume = {219}
- }
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