6533b838fe1ef96bd12a4e95

RESEARCH PRODUCT

Using input shaping and pressure feedback to suppress oscillations in slewing motion of lightweight flexible hydraulic crane

Michael Rygaard HansenMagnus B. Kjelland

subject

Engineeringbusiness.industryMechanical EngineeringFull scaleGeneral Physics and AstronomyNatural frequencyLoaderVibrationLaser trackerInput shapingControl theoryPoint (geometry)Transient (oscillation)business

description

This paper presents a method to actively reduce vibrations in the flexible mechanical structure of a hydraulically actuated vehicle loader crane. Based on information on the natural frequency and damping of a simplified model of the crane an input shaping scheme is set up to control the proportional valve leading to substantially reductions in oscillations. The method is compared and combined with a pressure feedback control of the proportional valve that actively suppresses transient variations in pressure. A full scale vehicle loader crane is used in the experimental verification of the method, and the motion of the tool point of the crane is measured by a high precision laser tracker. The results shown in this paper demonstrate that input shaping and pressure feedback are useful tools to minimize vibrations in hydraulically actuated flexible structures.

yearjournalcountryeditionlanguage
2015-09-02International Journal of Fluid Power
https://doi.org/10.1080/14399776.2015.1089071