论文信息 - Parabolic and hyperbolic flexure hinges: flexibility, motion precision and stress characterization based on compliance closed-form equations

Parabolic and hyperbolic flexure hinges: flexibility, motion precision and stress characterization based on compliance closed-form equations

The parabolic and hyperbolic flexure hinges are introduced as new rotation joints to be utilized in two-dimensional monolithic mechanisms. Closed-form equations are formulated for compliances to characterize both the active rotation and all other in- and out-of-plane parasitic motions. The stress levels are also evaluated in terms of compliances. Checked against finite element analysis and experimental measurement data, the model predictions are within 8% error margins. Further simulation is performed to compare geometrically-equivalent parabolic and hyperbolic flexure hinges. The results indicate that the parabolic flexures are more rotation-compliant and induce less stress, while the hyperbolic flexures are less sensitive to parasitic effects.

[1] Stuart T. Smith,et al. Flexures: Elements of Elastic Mechanisms , 2000 .

[2] Walter D. Pilkey. Peterson's Stress Concentration Factors , 1997 .

[3] J. Paros. How to design flexure hinges , 1965 .

[4] Wei Xu,et al. Flexure hinges for piezoactuator displacement amplifiers: flexibility, accuracy, and stress considerations , 1996 .

[5] Dae-Gab Gweon,et al. Error analysis of a flexure hinge mechanism induced by machining imperfection , 1997 .

[6] Stuart T. Smith,et al. ELLIPTICAL FLEXURE HINGES , 1997 .

[7] Nicolae Lobontiu,et al. Corner-Filleted Flexure Hinges , 2001 .

[8] Nicolae Lobontiu,et al. Design of symmetric conic-section flexure hinges based on closed-form compliance equations , 2002 .

[9] R. Peterson,et al. Stress Concentration Factors , 1974 .