Vibration Parameter Analysis of Non-Harmonic Vibration Conveyor

Zhi Ying Qin; Yao Liu

doi:10.4028/www.scientific.net/AMR.694-697.61

Paper Titles

Research on the Application of Body Force in Calculations for Submarine Powering Performance
p.41

Structural Design and Dynamic Analysis of Anti-Reversion Mechanism of Feed Mechanism
p.45

Study of Aerodynamic Drag Reduction on a Compact Electric Vehicle
p.51

The Research on Numerical Simulation of the Centrifugal Pump and Configuration Perfected
p.56

Vibration Parameter Analysis of Non-Harmonic Vibration Conveyor
p.61

A Rigidity and Flexibility Coupling Dynamic Analysis Method Applied in the 6-6 Stewart Parallel Mechanism
p.65

Analysis on Critical Speeds of the Rail Vehicle Based on SIMPACK
p.69

Design of Brake Pedal Stroke Simulator for Hybrid Electric Car
p.73

Drop Dynamic Simulation for Landing Gear via SimMechanics
p.77

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 694-697Vibration Parameter Analysis of Non-Harmonic...

Vibration Parameter Analysis of Non-Harmonic Vibration Conveyor

Abstract:

For the non-harmonic vibration conveyor, a single-degree-of-freedom dynamics model is built for the horizontal motion of bulk materials, in which the dry friction force is piecewise nonsmooth. The effect on conveying velocity is studied for six vibration parameters in the excitation force with two harmonic components. The conveying velocity increases with the increase of frequency and amplitude, but the optimum frequency ratio is 2, and the optimum amplitude ratio approaches 1/3. The initial phase has no effect on conveying velocity, and the effect of phase difference is periodic, i.e. the forward conveying is best on phase difference π/2, and the backward conveying is best on phase difference -π/2.