MATHEMATICAL MODEL OF CHECKWEIGHER WITH ELECTROMAGNETIC FORCE COMPENSATION (2ND REPORT) |
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| Y. Yamakawa, T. Yamazaki |
- Abstract:
- In this research we discuss behaviors of a high speed mass measurement system with conveyor belt (a checkweigher). The objective of this paper is a proposal of a simple dynamic model of the system. The dynamics of the checkweigher with Electro-Magnetic Force Compensation (simply called EMFC) can be approximated by a mass-springdamper system as a physical model, and an equation of motion is derived. Model parameters can be estimated from the experimental data. Then, comparisons of the simulation results with the realistic responses are carried out. Finally, effects of floor vibration on the mass measurement system will be explored. The dynamic model obtained offers practical and useful information to implement control scheme.
- Keywords:
- mass measurement, electromagnetic force compensation system, dynamic behavior, floor vibration
- Download:
- IMEKO-TC3-2014-021.pdf
- DOI:
- -
- Event details
- IMEKO TC:
- TC3
- Event name:
- TC3 Conference 2014
- Title:
22nd Conference on the Measurement of Force, Mass and Torque (together with 3rd TC22 Conference on Vibration Measurement and 12th TC5 Conference on the Measurement of Hardness)
- Place:
- Cape Town, SOUTH AFRICA
- Time:
- 03 February 2014 - 06 February 2014