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TAKIM TEZGAHI TASARIMINDA ELEKTRİK MOTORU SEÇİMİ

Year 2008, Issue: 017, 105 - 116, 15.12.2008

Abstract

Takım tezgahlarının tasarımındaki en önemli hususlardan biri, yeterli kesme kuvveti ve tezgah uzuvlarının gerekli

hareketlerinin oluşumunu sağlayan elektrik motorlarının seçimidir. Bu seçimin doğru yapılması, istenilen

boyutsal hassasiyette ve yüzey kalitesinde iş parçası üretilmesini sağlayan en önemli etkendir. Bu çalışmada,

günümüzde talaşlı imalatta kullanılmakta olan konvensiyonel ve nümerik kontrollü takım tezgahlarında tezgah

ana mili tahriki için güç, iş parçasının veya kesici takımın gerekli konumlandırılması için tezgah uzuv

hareketlerini sağlayan sürüm sistemlerine, verim-performans ve kontrol teknikleri bakımından elektrik motoru

seçiminin nasıl yapılacağı araştırılmıştır.

References

  • [1] Singh, G.K., Al Kazzas, S.A.S., “Induction Machine Drive Condition Monitoring and Diagnostic Research-A Survey”, Electric Power Systems Research, 64, 145-158p., (2003).
  • [2] Altintas, Y., “Manufacturing Automation; Metal Cutting Mechanics”, Machine Tool Vibrations and CNC Design, 284p, Cambridge University Press, New York, USA., (2000).
  • [3] Türkeş, E., “Konvensiyonel Takım Tezgahlarının Dizaynı ve Vargel Tezgahı Dizayn Uygulaması”, Yüksek Lisans Tezi, DPÜ Fen Bilimleri Enstitüsü., (2001).
  • [4] Türkeş, E., Köse, R., Zafer N., “Konvensiyonel Takım Tezgahlarında Tasarım: Vargel Tezgahı”, 3rd Internatıonal Advanced Technologıes Symposıum, Gazi University, Ankara., (2003).
  • [5] Türkeş, E., Köse, R., Zafer N., “Vargel Mekanizması için Dinamik Analiz ve Volan Hesabı”, 3rd Internatıonal Advanced Technologıes Symposıum, Gazi Universty, Ankara., (2003).
  • [6] Kane, T.R., Levinson, D.A., “Dynamics: Theory and Applications”, McGraw-Hill, New York., (1985).
  • [7] Akkurt, M., “Bilgisayar Destekli Takım Tezgahları (CNC) ve Bilgisayar Destekli Tasarım ve İmalat (CAD-CAM) Sistemleri”, Birsen Yayınevi, İstanbul., (1996).
  • [8] Weck, M., Krüger, P., Brecher, C., “Limits for Controller Settings With Electric Linear Direct Drives”, International Journal of Machine Tools & Manufacture, 41, 65–88p., (2001).
  • [9] Dhaouadi, R., Kubo, K., Tobise, M., “Analysis and Compensation of Speed Drive Systems with Torsional Loads”, IEEE, TH0406-9, PCC-Yokohama, 271-277p., (1993).
  • [10] Yin, Y., Wu, A.Y., “A Low Harmonic Elektric Drive System Based on Current-Source-Inverter”, IEEE, 0-7803-3919-3-5-/97, 148-154p., (1997).
  • [11] Lin, F-J., Wai, R-J., Shieh, H-J., “Robust Control of Induction Motor Drive with Rotor Time-Constant Adaptation”, Electric Power Systems, 47, 1-9p., (1998).
  • [12] Cusimano, G., “Generalization of a Method for the Selection of Drive Systems and Transmissions Under Dynamic Loads”, Mechanism and Machine Theory, 40, 530–558p., (2005).
  • [13] Straete, V.D., H.J., Schutter, J.D., Degezelle, P., Belmans, R., “Servo Motor Selection Criterion for Mechatronic Applications”, IEEE/ASME Transactions on Mechatronics, 43–50p., (1990).
  • [14] Cetinkunt, S., “Optimal Design Issues in High-Speed High Precision Motion Servo Systems”, Mechatronics: 1 (2), 187–201p., (1991).
  • [15] Pasch, K.A., Seering, W.P., “On the Drive Systems For High Performance Machines”, Journal of Mechanisms, Transmissions and Automation in Design, 106, 102–108p., (1984).
  • [16] Cusimano, G., “A Procedure for a Suitable Selection of Laws of Motion and Electric Drive Systems Under Inertial Loads”, Mechanism and Machine Theory, 38, 519–533p., (2003).
  • [17] Champagne, R., Dessaint, L.-A., Blanchette, H.F., “Real-time Simulation of Electric Drives”, Mathematics and Computers in Simulation, 63, 173-181p., (2003).
  • [18] Knight, W. A., “Factors Affecting the Torsional Frequency Response of Machine Tool Drive Systems”, International Journal of Machine Tool Design and Research, 12(1), 65-83p., (1972).
  • [19] Kwon, H.D., Burdekin, M., “Development and Application of a System for Evaluating the Feed-Drive Errors on Computer Numerically Controlled Machine Tools”, Precision Engineering, 19(2-3), 133- 140p., (1999).
  • [20] Ihara, Y., “Dynamic Performance of Machine Tools with Different Position Feedback Method”, Circuits, Signals and Systems, ACTA Press, 391-034, 436p., (2003).
  • [21] Chiu, G. T-C., “Contour Tracking of Machine Tool Feed Drive Systems”, Proceedings of the American Control Conference, Philadelphia, Pennsylvania, AACC, 3833-3837p., (1998). D.P.Ü. Fen Bilimleri Enstitüsü Takım Tezgahı Tasarımında Elektrik Motoru Seçimi 17. Sayı Aralık 2008 E.TÜRKEŞ & S.ORAK 116
  • [22] Ramachandran, V., “Evaluation of Performance Criteria of CNC Machine Tool Drive System”, IEEE Transactıons On Industrıal Electronıcs, 45(3), 462-468p., (1998).
  • [23] Gorgon, S., Hillery, M.T., “Development of a High-Speed CNC Cutting Machine Using Linear Motors”, Journal of Materials Processing Technology, 166, 321-329p., (2005).
  • [24] Hassan, M.Y., Majid, M.S., Rahman, H.A., “Application of Energy Efficient Motor in Malaysian Industries”, IEEE, 0-7803-6355-8/00, II, 97-102p., (2000).
  • [25] Liu, T-H., Lin, M-T., Wu, H-C., “A Single Phase Induction Motor Drive with Improved Performance”, Electric Power Systems Research, 47, 29-38p., (1998).
  • [26] Mori, M., et. all, “Development and Application of a Direct Drive Motor for Performance Enhancement of Versatile Machine Tool Systems”, CIRP Annals - Manufacturing Technology, 54 (1), 337-340p., (2005).
  • [27] Chen, J.S., Dwang, I.C., “A Ballscrew Drive Mechanism with Piezo-Electric Nut for Preload and Motion Control”, Int.Journal of Machine Tools & Manufacture, 40, 513–526p., (2000).
  • [28] Erkorkmaz, K., Wong, W., “Rapid Identification Technique for Virtual CNC Drives”, International Journal of Machine Tools & Manufacture, 47, 1381–1392p., (2007).
  • [29] Choi, C., Tsao, T-C., “Control of Linear Motor Machine Tool Feed Drives for End Milling: Robust MIMO Approach”, Mechatronics , 15, 1207–1224p., (2005
Year 2008, Issue: 017, 105 - 116, 15.12.2008

Abstract

References

  • [1] Singh, G.K., Al Kazzas, S.A.S., “Induction Machine Drive Condition Monitoring and Diagnostic Research-A Survey”, Electric Power Systems Research, 64, 145-158p., (2003).
  • [2] Altintas, Y., “Manufacturing Automation; Metal Cutting Mechanics”, Machine Tool Vibrations and CNC Design, 284p, Cambridge University Press, New York, USA., (2000).
  • [3] Türkeş, E., “Konvensiyonel Takım Tezgahlarının Dizaynı ve Vargel Tezgahı Dizayn Uygulaması”, Yüksek Lisans Tezi, DPÜ Fen Bilimleri Enstitüsü., (2001).
  • [4] Türkeş, E., Köse, R., Zafer N., “Konvensiyonel Takım Tezgahlarında Tasarım: Vargel Tezgahı”, 3rd Internatıonal Advanced Technologıes Symposıum, Gazi University, Ankara., (2003).
  • [5] Türkeş, E., Köse, R., Zafer N., “Vargel Mekanizması için Dinamik Analiz ve Volan Hesabı”, 3rd Internatıonal Advanced Technologıes Symposıum, Gazi Universty, Ankara., (2003).
  • [6] Kane, T.R., Levinson, D.A., “Dynamics: Theory and Applications”, McGraw-Hill, New York., (1985).
  • [7] Akkurt, M., “Bilgisayar Destekli Takım Tezgahları (CNC) ve Bilgisayar Destekli Tasarım ve İmalat (CAD-CAM) Sistemleri”, Birsen Yayınevi, İstanbul., (1996).
  • [8] Weck, M., Krüger, P., Brecher, C., “Limits for Controller Settings With Electric Linear Direct Drives”, International Journal of Machine Tools & Manufacture, 41, 65–88p., (2001).
  • [9] Dhaouadi, R., Kubo, K., Tobise, M., “Analysis and Compensation of Speed Drive Systems with Torsional Loads”, IEEE, TH0406-9, PCC-Yokohama, 271-277p., (1993).
  • [10] Yin, Y., Wu, A.Y., “A Low Harmonic Elektric Drive System Based on Current-Source-Inverter”, IEEE, 0-7803-3919-3-5-/97, 148-154p., (1997).
  • [11] Lin, F-J., Wai, R-J., Shieh, H-J., “Robust Control of Induction Motor Drive with Rotor Time-Constant Adaptation”, Electric Power Systems, 47, 1-9p., (1998).
  • [12] Cusimano, G., “Generalization of a Method for the Selection of Drive Systems and Transmissions Under Dynamic Loads”, Mechanism and Machine Theory, 40, 530–558p., (2005).
  • [13] Straete, V.D., H.J., Schutter, J.D., Degezelle, P., Belmans, R., “Servo Motor Selection Criterion for Mechatronic Applications”, IEEE/ASME Transactions on Mechatronics, 43–50p., (1990).
  • [14] Cetinkunt, S., “Optimal Design Issues in High-Speed High Precision Motion Servo Systems”, Mechatronics: 1 (2), 187–201p., (1991).
  • [15] Pasch, K.A., Seering, W.P., “On the Drive Systems For High Performance Machines”, Journal of Mechanisms, Transmissions and Automation in Design, 106, 102–108p., (1984).
  • [16] Cusimano, G., “A Procedure for a Suitable Selection of Laws of Motion and Electric Drive Systems Under Inertial Loads”, Mechanism and Machine Theory, 38, 519–533p., (2003).
  • [17] Champagne, R., Dessaint, L.-A., Blanchette, H.F., “Real-time Simulation of Electric Drives”, Mathematics and Computers in Simulation, 63, 173-181p., (2003).
  • [18] Knight, W. A., “Factors Affecting the Torsional Frequency Response of Machine Tool Drive Systems”, International Journal of Machine Tool Design and Research, 12(1), 65-83p., (1972).
  • [19] Kwon, H.D., Burdekin, M., “Development and Application of a System for Evaluating the Feed-Drive Errors on Computer Numerically Controlled Machine Tools”, Precision Engineering, 19(2-3), 133- 140p., (1999).
  • [20] Ihara, Y., “Dynamic Performance of Machine Tools with Different Position Feedback Method”, Circuits, Signals and Systems, ACTA Press, 391-034, 436p., (2003).
  • [21] Chiu, G. T-C., “Contour Tracking of Machine Tool Feed Drive Systems”, Proceedings of the American Control Conference, Philadelphia, Pennsylvania, AACC, 3833-3837p., (1998). D.P.Ü. Fen Bilimleri Enstitüsü Takım Tezgahı Tasarımında Elektrik Motoru Seçimi 17. Sayı Aralık 2008 E.TÜRKEŞ & S.ORAK 116
  • [22] Ramachandran, V., “Evaluation of Performance Criteria of CNC Machine Tool Drive System”, IEEE Transactıons On Industrıal Electronıcs, 45(3), 462-468p., (1998).
  • [23] Gorgon, S., Hillery, M.T., “Development of a High-Speed CNC Cutting Machine Using Linear Motors”, Journal of Materials Processing Technology, 166, 321-329p., (2005).
  • [24] Hassan, M.Y., Majid, M.S., Rahman, H.A., “Application of Energy Efficient Motor in Malaysian Industries”, IEEE, 0-7803-6355-8/00, II, 97-102p., (2000).
  • [25] Liu, T-H., Lin, M-T., Wu, H-C., “A Single Phase Induction Motor Drive with Improved Performance”, Electric Power Systems Research, 47, 29-38p., (1998).
  • [26] Mori, M., et. all, “Development and Application of a Direct Drive Motor for Performance Enhancement of Versatile Machine Tool Systems”, CIRP Annals - Manufacturing Technology, 54 (1), 337-340p., (2005).
  • [27] Chen, J.S., Dwang, I.C., “A Ballscrew Drive Mechanism with Piezo-Electric Nut for Preload and Motion Control”, Int.Journal of Machine Tools & Manufacture, 40, 513–526p., (2000).
  • [28] Erkorkmaz, K., Wong, W., “Rapid Identification Technique for Virtual CNC Drives”, International Journal of Machine Tools & Manufacture, 47, 1381–1392p., (2007).
  • [29] Choi, C., Tsao, T-C., “Control of Linear Motor Machine Tool Feed Drives for End Milling: Robust MIMO Approach”, Mechatronics , 15, 1207–1224p., (2005
There are 29 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Articles
Authors

Erol Türkeş This is me

Sezan Orak

Publication Date December 15, 2008
Published in Issue Year 2008 Issue: 017

Cite

APA Türkeş, E., & Orak, S. (2008). TAKIM TEZGAHI TASARIMINDA ELEKTRİK MOTORU SEÇİMİ. Journal of Science and Technology of Dumlupınar University(017), 105-116.

HAZİRAN 2020'den itibaren Journal of Scientific Reports-A adı altında ingilizce olarak yayın hayatına devam edecektir.