Load-adaptive quasi-zero stiffness vibration isolation via dual electromagnetic stiffness regulation

•A novel LEQVI for vibration isolation is proposed and systematically investigated.•The QZS is realized using the hardening stiffness to modulate the negative stiffness.•The rated load can be linearly and flexibly adjusted via current regulation.•The LEQVI can adapt to unknown loads without deprivin...

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Veröffentlicht in:Journal of sound and vibration 2023-12, Vol.567, p.118059, Article 118059
Hauptverfasser: Lu, Jia-Jia, Yan, Ge, Qi, Wen-Hao, Yan, Han, Shi, Jun-Wei, Chen, Ao, Zhang, Wen-Ming
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Sprache:eng
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Zusammenfassung:•A novel LEQVI for vibration isolation is proposed and systematically investigated.•The QZS is realized using the hardening stiffness to modulate the negative stiffness.•The rated load can be linearly and flexibly adjusted via current regulation.•The LEQVI can adapt to unknown loads without depriving QZS characteristic.•The LEQVI provides a novel paradigm for the load-sensitive problem of QZS isolators. Conventional quasi-zero stiffness (QZS) isolators are sensitive to load variation, especially the load mismatch can severely degrade low-frequency vibration isolation performance. Herein, a load-adaptative electromagnetic QZS vibration isolator (LEQVI) is proposed. The stiffness nonlinearization for QZS characteristic is achieved by exploiting a nonlinear positive stiffness structure (a cylindrical coil and a magnet in the face-to-face configuration) to modulate a negative stiffness structure (a conical coil and a magnet in the nested configuration). Static modeling and tests reveal that the rated load of the LEQVI can be flexibly and linearly adjusted by regulating the excitation current. Dynamic modeling found that the load mismatch can narrow the vibration isolation bandwidth and deteriorate the vibration attenuation effect. A sliding mode control law considering input saturation is developed to adapt to unknown loads. Simulations and dynamic experiments are conducted to evaluate the vibration isolation performance and verify the effectiveness of the load-adaptive controller. The results demonstrate that the LEQVI can realize a wide vibration isolation band and effective vibration attenuation under various loads via dual electromagnetic stiffness regulation. The proposed LEQVI provides a novel perspective for designing load-insensitive QZS isolators and holds great promise in facilitating future engineering applications of QZS isolators.
ISSN:0022-460X
1095-8568
DOI:10.1016/j.jsv.2023.118059