论文信息 - Selective magnet assembly assisted by an automated warehouse system: Algorithms, performance and industry 4.0 readyness

Selective magnet assembly assisted by an automated warehouse system: Algorithms, performance and industry 4.0 readyness

Permanent magnet synchronous motors (PMSM) suffer, depending on the topology, from quality deviations of the used magnets. These can result in insufficient running characteristics, such as low power output, low energy efficiency, consequently excessive heat, strong vibrations and noise. Especially topologies, such as halbach array rotors, are strongly reliant on an even magnetic field with ideally a full flux concentration in the working air gap. As a solution for cost efficient manufacturing of these special topologies, requiring a 100 % test of magnets, an algorithm for optimized warehouse management and a graphic industry 4.0 ready user interface for the FAPS magnet intralogistics warehouse system is presented. As an example and first suggestion for compensation of magnetic fields in radial flux topologies, a vector addition based algorithm for the compensation of spatial magnetic moment deviations is developed.

Andreas Mayr | Alexander Meyer | Yixiao Zhang | Joerg Franke | Nikolay Malygin

[1] Manuel Peter,et al. Rotor balancing by optimized magnet positioning during algorithm-controlled assembly process: Selection and assembly of rotor components minimizing the unbalance , 2014, 2014 4th International Electric Drives Production Conference (EDPC).

[2] Anton Karle,et al. Elektromobilität: Grundlagen und Praxis , 2016 .

[3] Nynke Faber. Structuring warehouse management : Exploring the fit between warehouse characteristics and warehouse planning and control structure, and its effect on warehouse performance , 2015 .

[4] A. Verl,et al. Defect reduction in the production of electric drives by downstream compensation and space-resolved inspection , 2014, 2014 4th International Electric Drives Production Conference (EDPC).

[5] Kay Hameyer,et al. Manufacturing Tolerances: Estimation and Prediction of Cogging Torque Influenced by Magnetization Faults , 2012, IEEE Transactions on Magnetics.

[6] Manuel Peter,et al. Optimized magnet assembly algorithms for reduced rotor unbalance: New rotor balancing strategy by measuring the weight of each magnet and placing it according to an algorithm , 2015, 2015 5th International Electric Drives Production Conference (EDPC).

[7] Karsten Michels. Trends in der Entwicklung von Antriebskomponenten für Elektro- und Hybridfahrzeuge , 2015 .

[8] Manuel Burgos-Payan,et al. Influence of Manufacturing Tolerances on the Electromotive Force in Permanent-Magnet Motors , 2013, IEEE Transactions on Magnetics.