Abstract
According to information, the earliest research on pneumatic servo control system is to analyze an open-loop system of spool valve-controlled cylinder with compressed air source and pressure of \( 5.5\,{\text{MPa}} \). Although compressed air has long been a driving power source, the commonly used pneumatic control system is composed of a number of low-performance valves that can only complete the “switch” action and relying on mechanical blocks to locate. This kind of control system has been widely used in various industrial departments and automated production lines with dynamic gas sources.
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Bibliography
Yin Y (2012) Electro-hydraulic servo control theory and application technology in extreme environment. Shanghai Science and Technology Press, Shanghai
Yin Y (2008) Key basic theory research of aircraft steering gear system. Shanghai Pujiang Talent Plan (Class A) Summary Report (06PJ14092), 2008.9.30
Yin Y (2010) Research on hydrogen pressurization, pressure control and regulation technology above 45 MPa. National High Technology Research and Development Program (863 Program) Project Acceptance Report (2007AA05Z119), 2010, 6.30
Araki K (1971) Characteristics compensation of a force feedback pneumatic servo valve. J Autom Control Soc 7(4):72–81
Araki K (1979) Frequency characteristics of pneumatic spool valves and cylinders with uneven underlaps (1st to 4th report). Hydraul Pneumatics, 1979, 10(1):57–63, 10(6):361–367. 1981, 12(4):262–268, 269–276
Araki K (1989) An indirect measurement method of equivalent negative underlaps of spool valve. Hydraul Pneumatics 20(1):71–76
Araki K (1988) Frequency characteristics of pneumatic underlap valve controlled asymmetric cylinder. Hydraul Pneumatics, 19(6):79–85
Araki K (1969) A study on high speed pneumatic servo mechanism. Institute of Industrial Science, the University of Tokyo
Tanaka H (1981) Control of servo cylinder position using proportional solenoid valve. Hydraul Pneuatics 12(4):57–61
Kagawa T (1981) Consideration of heat transfer in dynamic characteristics of pneumatic resistance capacity system. Hydraul Pneumatics 12(3):209–212
Araki K, Chen J (1996) Development of position and force control cylinder for resistance spot welding machine. Hydraul Pneumatics 27(7):941–947
Oshima Y, Araki K (1965) Servo mechanism. Ohm Corporation, Tokyuo
Japanese Society of Hydraulics and Pneumatics (1989) Handbook of hydraulics and pneumatics. Ohm Corporation, Tokyo
Araki K, Yin Y (1998) Research on pneumatic force control system for resistance spot welding machine. Mech Des Daily Ind Newspaper 42(2):72–77
Merrit HE (1967) Hydraulic control systems. Willey
Qu Y (1986) Pneumatic servo system. Shanghai Jiaotong University Press, Shanghai
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Yin, Y. (2019). Pneumatic Servo System. In: High Speed Pneumatic Theory and Technology Volume I. Springer, Singapore. https://doi.org/10.1007/978-981-13-5986-6_5
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DOI: https://doi.org/10.1007/978-981-13-5986-6_5
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