| Vorliegende Sprache |
eng |
| Hinweise auf parallele Ausgaben |
328108596 Buchausg. u.d.T.: ‡Albers, Peter: Motion Control in offshore and dredging industry |
| ISBN |
978-90-481-8802-4 |
| Name |
Albers, P. |
| T I T E L |
Motion Control in Offshore and Dredging |
| Weitere Titel |
Motion Control in Offshore and Dredging; About the author; Preface; Content; Chapter 1 Hydraulic energy converters; 1.1 List of symbols; 1.2 Hydraulic pump types, constant output; 1.2.1 External gear pumps; 1.2.2 Internal gear pumps; 1.2.3 Vane pumps; 1.2.4 Radial piston pumps; 1.3 Hydraulic pump types, variable output; 1.3 1 Swash plate pumps; 1.3.2 Proportional flow control; 1.3.3 Pressure control; 1.3.4 Load sense control; 1.4 Summary of pump characteristics; 1.5 Formulas; 1.5.1 Volumetric efficiency |
| Verlagsort |
Dordrecht |
| Verlag |
Springer Science+Business Media B.V |
| Erscheinungsjahr |
2010 |
| 2010 |
| Umfang |
Online-Ressource (X, 306p. 128 illus. in color, digital) |
| Reihe |
SpringerLink. Bücher |
| Notiz / Fußnoten |
Includes bibliographical references and index |
| Weiterer Inhalt |
Motion Control in Offshore and Dredging; About the author; Preface; Content; Chapter 1 Hydraulic energy converters; 1.1 List of symbols; 1.2 Hydraulic pump types, constant output; 1.2.1 External gear pumps; 1.2.2 Internal gear pumps; 1.2.3 Vane pumps; 1.2.4 Radial piston pumps; 1.3 Hydraulic pump types, variable output; 1.3 1 Swash plate pumps; 1.3.2 Proportional flow control; 1.3.3 Pressure control; 1.3.4 Load sense control; 1.4 Summary of pump characteristics; 1.5 Formulas; 1.5.1 Volumetric efficiency / mechanical efficiency; 1.6 Actuators: Cylinders; 1.6.1 Different types of cylinders. 1.6.2 Formulas for a double action cylinder1.6.3 Permissible speed; 1.6.4 Cylinder friction; 1.6.5 Application of the cylinder; 1.6.6 Buckle calculation for cylinders; 1.6.7 Rod layers; 1.6.8 Cylinder cushioning; 1.6.9 Cavitation; 1.7 Actuators: Hydraulic motors; 1.7.1 Motor with fixed displacement or stroke volume; 1.7.2 Motor with variable stroke volume; 1.7.3 Formulas for a hydraulic motor; Chapter 2 Hydraulic energy control,conductive part; 2.1 Pressure control valves; 2.1.1 Pressure Relief Valves; 2.1.2 Pressure reducing valve; 2.1.3 Pressure sequence valve. 2.1.4 Brake (counter balance) valve2.2 Directional valves; 2.3 Flow valves; 2.3.1 Non-return (check) valves; 2.3.2 Throttle valves; 2.4 Proportional and servo valves; 2.4.1 General; 2.4.2 Proportional controls; 2.4.3 Higher pressure drop across the valve ports; 2.4.4 Performance curve for the proportional valve; 2.4.5 The asymmetrical spool; 2.4.6 Slowing down of a load; 2.4.7 2-Way and 3-Way pressure compensation, loadsensing; Chapter 3 Conductive part, pipingand fluids; 3.1 List of symbols; 3.2 Piping; 3.3 Fluid properties; Chapter 4 Fluid conditioners andhydraulic accumulators. 4.1 List of symbols4.2 Reservoir; 4.3 Filtration; 4.3.1 Different filtration methods:; 4.3.2 Design considerations; 4.4 Accumulator; 4.4.1 Definition; 4.4.2 Applications; 4.4.3 Types; 4.4.4 Working conditions, Law of Boyle-Gay-Lussac; Chapter 5 AC induction machines; 5.1 Construction and principle of operation; 5.2 Speed and torque control; 5.3 Details of the AC-DC-AC; Chapter 6 Control technology; 6.1 List of symbols; 6.2 Block diagram and laplace transformation; 6.3 1st Order system, step response; 6.4 Elasticity of hydraulic fluids; 6.5 Stiffness of a cylinder. 6.6 Stiffness of a hydraulic motor6.7 Results of stiffness calculations; 6.8 Mass spring system; 6.9 Reduced mass and moment of inertia; 6.10 Dynamic behaviour; 6.11 Complex numbers, polar diagram; 6.12 Stability of 2nd and higher order systems; 6.13 Control errors; 6.14 The integrating controller (I-controller); 6.15 The dynamics of the AC-induction motor; Chapter 7 Linear drives, open-loop; 7.1 List of symbols; 7.2 Mass loaded cylinder with counterbalance valve; 7.3 Mass loaded cylinder with load control valve; 7.4 Mass loaded cylinder with flow control valve; 7.5 Pressure/force control. 7.6 Suspended force |
| Titelhinweis |
Buchausg. u.d.T.: ‡Albers, Peter: Motion Control in offshore and dredging industry |
| ISBN |
ISBN 978-90-481-8803-1 |
| Klassifikation |
TGMD4 |
| TEC009070 |
| SCI018000 |
| 627.73 |
| TA355 |
| TA352-356 |
| ZQ 9990 |
| Kurzbeschreibung |
High loads with high dynamics in severe conditions can only be driven by fluid power mechanisms. Motion Control is often used as a description in various engineering disciplines to refer to a technological solution that is able to control motion, e.g. the movement of at least one part relative to another. This volume describes how drives, sometimes very large, are designed and realised. The book gives a practical explanation of the way in which the different mechanisms described work. A distinction is made between rotating and linear drives. In the case of rotating drives, the choice for an electrical drive is becoming more and more prevalent. Linear drives remain important, because of the large forces and highly dynamic behaviour in the domain of hydraulic drive technology. Both these important technologies are extensively discussed in this book, together with design rules and the many installation requirements for applications in the offshore and dredging industry. |
| 1. Schlagwortkette |
Steuerungssystem |
| ANZEIGE DER KETTE |
Steuerungssystem |
| 2. Schlagwortkette |
Steuerungssystem |
| ANZEIGE DER KETTE |
Steuerungssystem |
| SWB-Titel-Idn |
32549696X |
| Signatur |
Springer E-Book |
| Bemerkungen |
Elektronischer Volltext - Campuslizenz |
| Elektronische Adresse |
$uhttp://dx.doi.org/10.1007/978-90-481-8803-1 |
| Internetseite / Link |
Volltext |
| Siehe auch |
Volltext |
| Siehe auch |
Inhaltsverzeichnis |
| Siehe auch |
Einführung/Vorwort |
| Siehe auch |
Cover |
