Design of an optimal shock-damping isolator with application to casters

Design of an optimal shock-damping isolator is presented in this paper with specific application to casters. The design is first formulated as an optimization problem to minimize the peak acceleration of a load while keeping the maximal deflection of the isolator within a specified physical limit. The resulting solution is a constant force isolator. However, it is difficult to realize a constant force isolator with conventional mechanisms using linear springs and dampers. To implement such an isolator physically, a novel mechanism employing multiple linear springs has been developed. The structure and the parameters of the springs have been chosen by optimization techniques, and the resulting mechanism has been embodied in a prototype caster design. This paper presents the concept, design procedure, simulation and experimental evaluation results of a prototype optimal shock-damping caster in detail. The peak acceleration of this new design is only 65% of the existing caster. From a manufacturing point of view, this newly designed caster is not much more complex than existing ones.

[1]  Dean Karnopp Active Suspensions Based on Fast Load Levelers , 1987 .

[2]  E. Suhir Dynamic response of a one-degree-of-freedom linear system to a shock load during drop tests: Effect of viscous damping , 1996 .

[3]  L. R. Miller Tuning passive, semi-active, and fully active suspension systems , 1988, Proceedings of the 27th IEEE Conference on Decision and Control.

[4]  Cyril M. Harris,et al.  Shock and vibration handbook , 1976 .

[5]  Dean Karnopp,et al.  Vibration Control Using Semi-Active Force Generators , 1974 .

[6]  R. A. Williams Electronically controlled automotive suspensions , 1994 .

[7]  Eugene I. Rivin,et al.  Stiffness and Damping in Mechanical Design , 1999 .

[8]  Dean Karnopp,et al.  ACTIVE DAMPING IN ROAD VEHICLE SUSPENSION SYSTEMS , 1983 .

[9]  Dmitry V. Balandin,et al.  Optimal protection from impact, shock and vibration , 2001 .

[10]  E. M. Elbeheiry,et al.  OPTIMAL CONTROL OF VEHICLE RANDOM VIBRATION WITH CONSTRAINED SUSPENSION DEFLECTION , 1996 .

[11]  Seshadri Sankar,et al.  Semi-active force generators for shock isolation , 1988 .

[12]  A. G. Thompson,et al.  An Active Suspension with Optimal Linear State Feedback , 1976 .

[13]  Takuji Kobori,et al.  Actual seismic response controlled building with semi-active damper system , 1999 .

[14]  Dean Karnopp,et al.  Semiactive Control of Multimode Vibratory Systems Using the ILSM Concept , 1975 .

[15]  D. Hrovat,et al.  Survey of Advanced Suspension Developments and Related Optimal Control Applications, , 1997, Autom..