Active pendulum vibration absorbers with a spinning support

A novel pendulum vibration absorber with a rotational base is proposed for neutralization of vertical excitations. The characteristic frequency of the absorber can be dynamically tuned over a wide range by varying the rotational speed. The external disturbance is countered by the inertial force of the revolving mass, whose angular momentum is not affected by the external excitation. As a result minimal power is required to sustain the system in steady state. This paper first derives the characteristic frequency of the rotational pendulum as function of the rotational rate. A pair of symmetric pendulums are then installed on a primary structure subject to harmonic disturbances. It is shown how the pendulum absorber is capable of balancing the external excitation. Asymptotic stability of the linearized system is also proved. Numerical simulations are then conducted to illustrate the performance of the system. Finally a variant design resembling a fly-ball governor is presented; it has the merit of ensuring simultaneous motions of two symmetric rotational pendulums so that lateral oscillations are canceled. The proposed scheme is suitable for an active vibration control system where there is a constraint on the power or force capacity of a linear actuator.

[1]  Hakan Elmali,et al.  Experimental Comparison of Delayed Resonator and PD Controlled Vibration Absorbers Using Electromagnetic Actuators , 1998, Vibration and Noise Control.

[2]  Steven W. Shaw,et al.  PERFORMANCE AND DYNAMIC STABILITY OF GENERAL-PATH CENTRIFUGAL PENDULUM VIBRATION ABSORBERS , 2002 .

[3]  Tadashi Nagase,et al.  Tuned-pendulum mass damper installed in crystal tower , 1992 .

[4]  Chyun-Chau Fuh,et al.  Application of voice coil motors in active dynamic vibration absorbers , 2005 .

[5]  Osamu Nishihara,et al.  Development of Antiresonance Enforced Active Vibration Absorber System , 1996 .

[6]  Miros Pirner,et al.  Actual behaviour of a ball vibration absorber , 2002 .

[7]  Anil K. Bajaj,et al.  DYNAMICS OF AUTOPARAMETRIC VIBRATION ABSORBERS USING MULTIPLE PENDULUMS , 2001 .

[8]  Mustafa Yaman,et al.  Determining the effect of detuning parameters on the absorption region for a coupled nonlinear system of varying orientation , 2007 .

[9]  W. Thomson Theory of vibration with applications , 1965 .

[10]  A. Ertas,et al.  Pendulum as Vibration Absorber for Flexible Structures: Experiments and Theory , 1996 .

[11]  Ondřej Fischer Wind-excited vibrations—Solution by passive dynamic vibration absorbers of different types , 2007 .

[12]  Radoslav Nabergoj,et al.  Autoparametric Resonance in Mechanical Systems , 2000 .

[13]  Shang-Teh Wu,et al.  Hybrid vibration absorber with virtual passive devices , 2007 .

[14]  Joris De Schutter,et al.  Input torque balancing using a cam-based centrifugal pendulum: design procedure and example , 2005 .