BibTex RIS Cite

HIZLI AĞIRLIK BELİRLEME İÇİN YÜK HÜCRESİ İŞARETLERİNİN İŞLENMESİ

Year 2016, Volume: 4 Issue: 3, 97 - 102, 30.09.2016

Abstract

Bu çalışmada endüstriyel dinamik tartım sistemlerinde tercih edilen kiriş tipi yük hücrelerinin tepki işaretleri incelenerek, kalıcı yük seviyesinin hızlı bir şekilde belirlenmesi için yapı dinamiği formülleri sayısal olarak çözülmüştür. Yük hücresinin çıkışındaki yüksek salınımlı işaretlerin sönümlenmesini beklemeden ağrılığın tespit edilmesi hızlı ağırlık tespiti açısından önemlidir. Bu çalışmada, TEDEA 1042 model yük hücresinin çıkış işareti NI PCI 6221 DAQ kartı ile toplanmış ve veriler MATLAB ortamında sayısal olarak çözülen yapı dinamiği denklemlerine girdi olarak kullanılmıştır. Doğrulama için literatür ve deneylerden elde edilen sonuçlar kullanılmıştır. Deney sonuçları yapılan çözümlemenin hızlı ağırlık makinalarına uygulanabilir olduğunu göstermiştir.

References

  • KAYNAKLAR (REFERENCES)
  • Clement J., Novas N., “High Speed Intelligent Classifier of Tomatoes by Colour, Size And Weight”, Spanish Journal of Agricultural Research, 2, 314-325, 2012.
  • Piskorowski J., Barcinski T., “Dynamic Compensation of Load Cell Response: a Time-Varying Approach”, Mechanical Systems and Signal Processing, 22, 1694-1704, 2008.
  • Jafaripanah M., Bashir M., Al-Hashimi M., White N. “Load Cell Response Correction Using Analog Adaptive Techniques”, Circuits and Systems, 4, 752-755, 2003.
  • Boschetti G., Caracciolo R., Richiedei D., Trevisani A., “Model-Based Dynamic Compensation of Load Cell Response In Weighing Machines Affected by Environmental Vibrations”, Mechanical Systems and Signal Processing, 34, 116-130, 2013.
  • Bahar B., Horrocks H., “Dynamic Weight Estimation Using an Artificial Neural Network”, Artificial Intelligence in Engineering, 12 (1), 135-139, 1998.
  • Almodarresi Y. ve White M., “Application Of Artificial Neural Networks to Intelligent Weighing Systems”, Science Measurement and Technology, 146, 265-269, 1999.
  • Kesilmiş Z. ve Baran T., “A Geometric Approach to Beam Type Load Cell Response for Fast Weighing”, Journal of Metrology Society of India, DOI: 10.1007/s12647-016-0168-2, 2016.
  • Chopra, A. K., “Dynamics of Structures: Theory and Applications to Earthquake Engineering”, 2nd ed., New Jersey, USA, Prentice-Hall, 2001.
  • Clough, R.W. ve Penzien, J., “Dynamics of Structures”, 2nd ed., New York, USA, McGraw Hill, 1993.
  • Chapra, S.C. ve Canale, R,P., “Numerical Methods for Engineers”, 5th. ed., Boston, USA, McGraw Hill, 2006.
  • VPG sensor, “TDEA 1042 Yük Hücresi Katalog Bilgisi”, http://www.vishaypg.com/docs/12010/1042.pdf (28.03.2016)
  • Elbeltagi, R., “In-Process Weighing Systems”. ASME 2011 International Mechanical Engineering Congress and Exposition, American Society of Mechanical Engineers, 1113-1122, 2011
  • Computers and Structures Inc., “SAP2000-Integrated Structural Analysis and Design Software”, Berkeley, California, USA, 1997.
Year 2016, Volume: 4 Issue: 3, 97 - 102, 30.09.2016

Abstract

References

  • KAYNAKLAR (REFERENCES)
  • Clement J., Novas N., “High Speed Intelligent Classifier of Tomatoes by Colour, Size And Weight”, Spanish Journal of Agricultural Research, 2, 314-325, 2012.
  • Piskorowski J., Barcinski T., “Dynamic Compensation of Load Cell Response: a Time-Varying Approach”, Mechanical Systems and Signal Processing, 22, 1694-1704, 2008.
  • Jafaripanah M., Bashir M., Al-Hashimi M., White N. “Load Cell Response Correction Using Analog Adaptive Techniques”, Circuits and Systems, 4, 752-755, 2003.
  • Boschetti G., Caracciolo R., Richiedei D., Trevisani A., “Model-Based Dynamic Compensation of Load Cell Response In Weighing Machines Affected by Environmental Vibrations”, Mechanical Systems and Signal Processing, 34, 116-130, 2013.
  • Bahar B., Horrocks H., “Dynamic Weight Estimation Using an Artificial Neural Network”, Artificial Intelligence in Engineering, 12 (1), 135-139, 1998.
  • Almodarresi Y. ve White M., “Application Of Artificial Neural Networks to Intelligent Weighing Systems”, Science Measurement and Technology, 146, 265-269, 1999.
  • Kesilmiş Z. ve Baran T., “A Geometric Approach to Beam Type Load Cell Response for Fast Weighing”, Journal of Metrology Society of India, DOI: 10.1007/s12647-016-0168-2, 2016.
  • Chopra, A. K., “Dynamics of Structures: Theory and Applications to Earthquake Engineering”, 2nd ed., New Jersey, USA, Prentice-Hall, 2001.
  • Clough, R.W. ve Penzien, J., “Dynamics of Structures”, 2nd ed., New York, USA, McGraw Hill, 1993.
  • Chapra, S.C. ve Canale, R,P., “Numerical Methods for Engineers”, 5th. ed., Boston, USA, McGraw Hill, 2006.
  • VPG sensor, “TDEA 1042 Yük Hücresi Katalog Bilgisi”, http://www.vishaypg.com/docs/12010/1042.pdf (28.03.2016)
  • Elbeltagi, R., “In-Process Weighing Systems”. ASME 2011 International Mechanical Engineering Congress and Exposition, American Society of Mechanical Engineers, 1113-1122, 2011
  • Computers and Structures Inc., “SAP2000-Integrated Structural Analysis and Design Software”, Berkeley, California, USA, 1997.
There are 14 citations in total.

Details

Journal Section Architecture
Authors

Zehan Kesilmiş

Tarık Baran

Publication Date September 30, 2016
Submission Date April 26, 2016
Published in Issue Year 2016 Volume: 4 Issue: 3

Cite

APA Kesilmiş, Z., & Baran, T. (2016). HIZLI AĞIRLIK BELİRLEME İÇİN YÜK HÜCRESİ İŞARETLERİNİN İŞLENMESİ. Gazi University Journal of Science Part C: Design and Technology, 4(3), 97-102.

                                TRINDEX     16167        16166    21432    logo.png

      

    e-ISSN:2147-9526