Abstract
This paper describes a method for high accurate mass measurement under vibration-like moving conditions. In the previous paper, numerical simulations and experiments with a simple experimental apparatus demonstrated the effectiveness of the mass measuring method proposed by the authors. It is also confirmed that the influence of vibration-like movement depends on the position of gravity center of the weighed objects. As a step for a practical application, the development of the weighing system with 3 dummy loadcells is important. The weighing system to be treated in this paper consists of a weighing loadcell and 3 dummy loadcells. The simulated and experimental results with the trial-manufactured weighing system are reported. The estimating method of angular velocities is explained in this paper, too. The effectiveness of the proposed measuring method is clarified both by simulation and by fundamental experiment.
