Mechanical Spring Replacement With Pneumatic Return Device in a Valve Train: Effects on Dynamics and Preload Tuning

To solve the indetermination of forces existing in a form-closed cam mechanism formed by conjugate cams, where the contact between the cams and the follower rollers is constantly ensured by only the geometry of the elements, dynamic models that consider the elasticity of the elements must be proposed. Because the stiffness of the main elements is associated with the elasticity of the solids, tight variations in manufacturing and assembly errors modify the effective interference fit, which significantly affects the expected fatigue life of the mechanism, leading to a premature failure of the elements due to surface fatigue. Based on a real industrial application of a conjugate cam mechanism and using lumped-parameter models, the objectives of this paper are: first, to show that it is difficult to achieve a pure form-closed conjugate cam mechanism, with the expected fatigue life of the mechanism, by using only standard tolerance specifications; second, to compare the expected fatigue life and motor torque with other cam mechanism design strategies such as force-closed and the combination of force-closed and form-closed strategies, known as force-closed conjugate cam strategy. This paper based on simulation results demonstrates that this latest strategy can, thanks to a better control of the preload, easily achieve results very similar to the theoretical ones of a form-closed conjugate cam mechanism. A prototype of the mechanism of the force-closed conjugate cam strategy is also built.

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Avoiding Early Failures in Conjugate Cam Mechanism by Means of Different Design Strategies

Català

Santos

Fontanet

et al. 2015

Journal of Mechanical Design

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Scuderi Split Cycle Fast Acting Valvetrain: Architecture and Development

Meldolesi

Bailey

Lacy

et al. 2011

SAE Int. J. Engines

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Mechanical Spring Replacement With Pneumatic Return Device in a Valve Train: Effects on Dynamics and Preload Tuning

Cited by 2 publications

References 8 publications

Avoiding Early Failures in Conjugate Cam Mechanism by Means of Different Design Strategies

Avoiding Early Failures in Conjugate Cam Mechanism by Means of Different Design Strategies

Scuderi Split Cycle Fast Acting Valvetrain: Architecture and Development

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