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ELEKTROPNÖMATİK ve ALTERNATİF VALFLERİN GELİŞİMİ VE KARAKTERİSTİKLERİNİN İNCELENMESİ

Development of Electropneumatic and Alternative Valves, Investigation of Their Characteristics

Journal Name:

  • Uludağ Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi

Publication Year:

  • 2007

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
In this study, the development and characteristics of different types of standard electropneumatic valves and alternative valves used in pneumatic control systems are reviewed. Also characteristics of a fast switching valve developed in a PhD work are investigated. It is emphasized that both the fast switching valves and the alternative valves are likely to take place more and more in the future applications.
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Abstract (Original Language): 
Bu çalışmada pnömatik denetim sistemlerinde kullanılan farklı yapılardaki standart elektropnömatik ve alternatif valflerin gelişimi ve karakteristikleri ele alınmıştır. Ayrıca doktora çalışması kapsamında geliştirilen bir hızlı anahtarlama valfinin yapısı ve karakteristikleri incelenmiştir. Hızlı anahtarlama valflerinin ve diğer alternatif valflerin gelecekteki uygulamalarda önemli bir yer tutacağı görülmüştür.
FULL TEXT (PDF): 
PDF icon arastirmax-elektropnomatik-alternatif-valflerin-gelisimi-karakteristiklerinin-incelenmesi.pdf
  • 2
21-33
  • Turkish

REFERENCES

References: 

1. TMMOB (2001) Pnömatik Devre Elemanları ve Uygulama Teknikleri. İstanbul.
2. Ahn, K. and Yokota, S. (2005) Intelligent Switching Control of Pneumatic Actuator Using On/Off Solenoid
Valves. Mechatronics, 15, 683-702.
3. Akagi, T., Dohta, S., Matsushita, H., Takechi, K. (2002) Development of Opto-Pneumatic On- Off Valve. Proceedings
of 5th JFPS International Symposium on Fluid Power, Nara, Japan, 95-100.
4. Andersen, B. W. (1968) The Analysis and Design of Pneumatic Systems.John Wiley.New York. 302 p.
5. Baumann, A. R. ve Lancester, V. T. (2002) Elektropnömatik Temel Seviye Eğitim Kitabı. ENTEK Pnömatik San.
ve Tic. Ltd. Şti.
6. Baumann, A. R. ve Lancester, V. T. (2002) Pnömatik Teknolojisi Eğitim Kitabı. ENTEK Pnömatik San. Ve Tic.
Ltd. Şti.
7. Belforte, G. (2000) New Developments and New Trends in Pneumatics. Proceedings of Sixth Triennial International
Symposium on Fluid Control, Measurement and Visualization,Canada.
http://fluid.power.net/techbriefs/hanghzau/1_5.pdf
8. Belforte, G., Mattiazzo, G., Mauro, S. (2002) Fast Response Pneumatic Systems with Digital Valves. 5th JFPS
International Symposium on Fluid Power. Nara, Japan.
9. Bublitz, R. (2001) Development of a Continuous-Action Pneumatic Valve with Minimized Energy Input. O+ P>>
Ölhydraulik und Pneumatik<<. 45 (10).
10. Bublitz, R. ve Murrenhoff, H. (2002) Intelligent Proportional Pneumatic Valves and Drives for Field and Bus
Applications. Fifth JFPS International Symposium on Fluid Power. Nara. Japan.
11. Cabral, E. L., Hunold, M. C., Tu, C. C. (2002) Air Flow in a Plate Valve with Unequal Upstream and Downstream
Orifice Sizes. Proceeding of the Institution of Mechanical Engineers Part C. Journal of Mechanical Engineering
Science. 216, 459-471.
12. Choi, S. H., Lee, C. O., Cho, H. S. (2000) Friction Compensation Control of an Electropneumatic Servovalve by
Using an Evolutionary Algorithm. Proceeding of the Institution of Mechanical Engineers Part 1. Journal of Systems
and Control Engineering. Vol. 214 (13), 173-184.
13. DeRose, D. (2003) The Expanding Proportional and Servo Valve Marketplace. Fluid Power Journal. pp. 30-36.
14. Dohta, S., Akagi, T., Matsushita, H., Nakanishi, N. (2000) Optical Servo Valve and Its Optimal Design. Proceedings
of Sixth Triennial International Symposium on Fluid Control, Measurement and Visualization, pp. 1-6. Canada.
http://www.tsuyama-ct.ac.jp/honkou/kojin/sei/akagi/paper/Fl_068_FLUCOME2000.pdf
15. Gamble, J. B., Vaughan, N. D. (1996) Comparison of Sliding Mode Control With State Feedback and PID Control
Applied to a Proportional Solenoid Valve. Journal of Dynamic Systems, Measurement, and Control, 118, 434-
438.
16. Gentile, A., Giannoccaro, N. I., Reina, G. (2002) Experimental Tests on Position Control of A Pneumatic Actuator
Using On/Off Solenoid Valves. IEEE ICIT '02. 1, Bangkok, Thailand. 1, 555-559.
17. Goldstein, S. R., Richardson, H. H. (1968) A Differential Pulse-Length Modulated Pneumatic Servo Utilizing
Floating Flapper Disk Switching Disc Valves. Trans. ASME, Journal of Basic Engineering. Series C-D, pp. 427-
437.
18. Imaizumi, T., Oyama, O., Yoshimitsu, T. (2001) Study of Pneumatic Servo System Employing Solenoid Valve
Instead of Proportional Valve by Keeping the Solenoid Valve Plunger to be Floating. Proceedings of Sixth Triennial
International Symposium on Fluid Control, Measurement and Visualization. Canada.
http://www.callisto.si.usherb.ca/~fluo2000/PDF/Fl_073.pdf
19. Kajima, T. (1993) Development of a High- Speed Solenoid Valve: Investigations of the Energizing Circuits. IEEE
Transactions on Industrial Electronics. 40 (4), 428-435.
20. Kajima, T. (1995) Dynamic Modeling of the Plunger Type Solenoids at Deenergizing State. IEEE Transactions on
Magnetics. 31 (3), 2315-2323.
21. Kallenbach, E., Kube, H., Zoppig, V., Feindt, K., Hermann, R., Beyer, F. (1999) New Polarized Electromagnetic
Actuators as Integrated Mechatronic Components- Design and Application. Mechatronics. 9, 769-784.
22. McCloy, D., Martin, H. R. (1980) Control of Fluid Power: Analysis and Design. Ellis Harwood Limited. New
York.
23. Messina, A., Giannoccaro, N. I., Gentile, A. (2005) Experimenting and Modelling the Dynamics of Pneumatic
Actuators Controlled by the Pulse Width Modulation (PWM) Technique. Mechatronics. 15, 859-881.
24. Murrenhoff, H. (2003) Trends in Valve Development. O+P >Ölhydraulik und Pneumatik< 46 (4), 1-36.25. Noritsugu, T. (1987) Development of PWM Mode Electropneumatic Servomechanism, Part II: Position Control of
a Pneumatic Cylinder. Journal of Fluid Control, 17(2), 7-31.
26. Pohl, J., Sethson, M. M., Krus, P., Palmberg, J. (2001) Modeling and Simulation of a Fast 2/2 Switching Valve.
The 5th International Conference on Fluid Power Transmission and Control, Hangzhou, China.
http://fluid.power.net/techbriefs/hanghzau/2_22.pdf
27. Roters, H. C. (1941) Electromagnetic Devices. John Wiley & Sons. Inc., 7th Edition, New York, USA.
28. Royston, T., Singh, R. (1993) Development of a Pulse Width Modulated Pneumatic Rotary Valve for Actuator
Position Control. Journal of Dynamic Systems, Measurement, and Control. 115, 495-505.
29. Sato, Y., Cai, S., Hashimoto, N. (2002) Development of Electro-Pneumatic Valve for Cold Air Flow Control.
Fifth JFPS International Symposium on Fluid Power. Nara. Japan.
30. Shih, M., Ma, M. (1998a) Position Control of a Pneumatic Cylinder Using Fuzzy PWM Control Method. Mechatronics,
8 (3), 241-253
31. Shih, M., Ma, M. (1998b) Position Control of a Pneumatic Rodless Cylinder Using Sliding Mode M-D-PWM
Control the High Speed Solenoid Valves. JSME International Journal, 41 (2), 236-241.
32. Stoll, K. (2001) New Developments in Pneumatics. 5th International Conference on Fluid Power Transmission
and Control. Hangzau, China. http://fluid.power.net/techbriefs/hanghzau/1_5.pdf
33. Taft, C. K., Harned, T. J. (1979) Electro- Fluid Four Way On-Off Pneumatic Valve. ASME. 1-8.
34. Topçu, E. E. (2005) Elektropnömatik Bir Sistem İçin Valf Tasarımı ve Denetim Tekniklerinin Araştırılması. Doktora
Tezi. Uludağ Üniversitesi. Fen Bilimleri Enstitüsü.s. 107. Bursa.
35. Topçu, E. E., Yüksel, İ. (2003) Elektropnömatik Bir Sistemde Konum Denetiminin Araştırılması. III. Ulusal Hidrolik
ve Pnömatik Kongresi ve Sergisi. syf. 439-449. İzmir.
36. Topçu, E. E., Yüksel, İ. (2005a) Alternatif Bir Elektropnömatik Valf Tasarımı ve Karakteristiklerinin Araştırılması.
Mühendis ve Makine Dergisi. 46(542):19-28.
37. Topçu, E. E., Yüksel, İ. (2005b) Elektropnömatik Hızlı Anahtarlama Valfi Tasarımı ve DGM Tekniği ile Sürülmesinin
Araştırılması. TOK’05. Türkiye Otomatik Kontrol Bilimsel Toplantısı. 4-5 Eylül 2005. İstanbul. 403 -
409.
38. Topçu, E. E., Yüksel, İ. (2005c) Elektropnömatik Sistemler için Tasarlanan Hızlı Anahtarlama Valfi ile Konum
Denetiminin Araştırılması. IV. Ulusal Hidrolik-Pnömatik Kongresi. İzmir. 289-297.
39. Vaughan, N. D., Gamble, J. B. (1996) The Modeling and Simulation of a Proportional Solenoid Valve. Journal of
Dynamic System, Measurement, and Control. 118, 120-125.
40. Virvalo, T. (2001) The Influence of Servo Valve Size on the Performance of a Pneumatic Position Servo. 5th
International Conference on Fluid Power Transmission and Control. Hangzau, China.
www.fluid.power.net/techbriefs/hanghzau/3_13.pdf
41. Xiang, P., Jiajin, Z., Jilong, Y., Jian, R. (2001) 2D Pneumatic Digital Servo Valve. 5th International Conference
on Fluid Power Transmission and Control. Hangzau, China. http://fluid.power.net/techbriefs/hanghzau/3_1.pdf
42. Ye, N., Scavarda, S., Betemps, M., Jutard, A. (1992) Models of a Pneumatic PWM Solenoid Valve for Engineering
Applications. Journal of Dynamic Systems, Measurement, and Control. 114, 680-688.
43. Yüksel, İ. (1981) An Investigation of Electro- Hydraulic Floating Disc Switching Valves. PhD Thesis, University
of Surrey.
44. Yüksel, İ. (1993) Elektrohidrolik Valflerin Genel Karakteristiklerinin İncelenmesi ve Karşılaştırılması, Uludağ
Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi, 4 (1), 67-81.
45. Yüksel, İ., Şengirgin, M. (2001) Elektrohidrolik Valflerin Gelişimi ve Karakteristiklerinin İncelenmesi. II. Ulusal
Hidrolik- Pnömatik Kongresi, 265-280. İzmir.
46. Festo, Proportional Pneumatic Valves kataloğu, 2005.
47. Festo_web, http://www.festo.com
48. Matrix_web, http://www.matrix.to.it
49. Flowprod_web, http://www. flowprod.com
50. Hoerbiger-Origa_web, http://www.hoerbiger-origa.co.uk
51. SMCworld_web, http://www.smcworld.com

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