Conference article

Modeling of EHA Module Equipped with Fixed-Displacement Vane Pump

Emanuele Gnesi
Parker Hannifin Manufacturing France S.A.S., Vane Pump Division, Vierzon Cedex, France

Jean-Charles Maré
Universitå de Toulouse; INSA-UPS, Institut Clåment Ader, Toulouse Cedex, France

J. Bordet
Parker Hannifin Manufacturing France S.A.S., Vane Pump Division, Vierzon Cedex, France

Download articlehttp://dx.doi.org/10.3384/ecp1392a15

Published in: 13th Scandinavian International Conference on Fluid Power; June 3-5; 2013; Linköping; Sweden

Linköping Electronic Conference Proceedings 92:15, p. 141-152

Show more +

Published: 2013-09-09

ISBN: 978-91-7519-572-8

ISSN: 1650-3686 (print), 1650-3740 (online)

Abstract

The paper deals with the model based design of an electrohydrostatic actuator (EHA) module for industrial applications; with special focus on modeling and simulation. The last years growing interest to environmental issues has turned companies policy’s attention to research of more eco-friendly solutions with lower environmental impact and energy saving. Thus the energy consumption; the CO2 and acoustic emissions have become essential requirements; in addition to functionality and productivity demands; that the industrial engineering has to take into account during conceptual and preliminary phases

Keywords

Actuator; EHA; energy saving; efficiency; injection molding machine; vane pump; AMESim

References

[1] J-C Maré. Towards more electric drives for embedded applications: (re)discovering the advantages of hydraulics. 7th International Fluid Power Conference; Aachen; Germany; 2010.

[2] S Helduser. Development trends in electrohydraulic drives and controls. 6th International Fluid Power Conference; Dresden; Germany; 2008.

[3] K Muller; and U Dorn. Variable speed drives – customer benefits in injection molding machines and presses. 7th International Fluid Power Conference; Aachen; Germany; 2010.

[4] S Helduser. Improved energy efficiency in plastic injection moulding machines. 8th Scandinavian International Conference of Fluid Power; Tampere; Finland; 2003.

[5] J-C Maré. Combining hydraulics and electrics for innovation and performance improvement in aerospace actuation. 12th Scandinavian International Conference of Fluid Power; Tampere; Finland; 2011.

[6] A Feuser. Modern electrohydraulic drive technology for stationary machinery in industrial automation. 7th International Fluid Power Conference; Aachen; Germany; 2010.

[7] K R McCullough. Design and characterization of a dual electro-hydrostatic actuator. Department of Mechanical Engineering; McMaster University; Hamilton; Canada; 2011.

[8] S Habibi; and A Goldenburg. Design of a new high performance electrohydraulic actuator. IEEE/ASME Transactions on Mechatronics; Vol.5; 2000.

[9] Parker Catalogue. Compact electro-hydraulic actuator (EHA). Bulletin HY22-3200A/US.

[10] D van den Bossche. The A380 flight control electrohydrostatic actuators; achievements and lessons learnt. 25th International Congress of the Aeronautical Sciences; Hamburg; Germany; 2006.

[11] A E Fitzgerald; C Jr Kingsley; and S D Umans. Electric Machinery. 6th edition; McGraw Hill; 2003.

[12] H E Merritt. Hydraulic Control Systems. John Wileys and Sons; Cincinnati; Ohio; 1967. ISBN 0-471-59617-5.

[13] J-C Maré. Actionneurs hydrauliques - commande. Article S7531; série Mesure et Régulation; Encyclopédie des Techniques de l’Ingénieur; page 17; Septembre 2002.

[14] F H Raven. Automatic Control Engineering. 5th edition; McGraw Hill; 1995.

[15] J-C Maré. Considerations pratiques sur les correcteurs PID dans le domaine de l’énergie fluide. Revue Fluides; pp 8-17; Numéro Spécial Matériels; Septembre 2000

[16] E G Papadopoulos; and G C Chasparis. Analysis and model-based control of servomechanisms with friction. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and System; Lausnne; Switzerland; 2002.

[17] D Karnopp. Computer simulation of stick-slip friction in mechanical dynamic systems. Journal of Dynamic Systems; Measurement and Control. Vol. 7; March 1985.

[18] LMS-AMESim. AMEHelp

[19] P Krus. Formula Book For Hydraulics and Pneumatics. Fluid and Mechanical Engineering Systems; Department of Management and Engineering; Linkoping University; Sweden. Revised 2008-10-27.

Citations in Crossref