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The article refers to some directions of modernization in the field of hydraulics focusing on digitalization and the transition to intelligent hydraulic equipment and systems. Before exposing the achievements, the authors try to remove some confusion related to digitization and digitalization. The article presents two intelligent equipment designed by IHP, a proportional directional valve and a digital actuator and two intelligent stands, one of servo-valves and one of digital hydraulic cylinders, existing in operation in laboratory and which by the endowment and working procedures represent solutions in the field of intelligent hydraulics.
W artykule odniesiono się do wybranych kierunków modernizacji hydrauliki, koncentrując się na cyfryzacji i przejściu na inteligentne urządzenia oraz systemy hydrauliczne. Przed przedstawieniem osiągnięć autorzy artykułu starają się usunąć zamieszanie związane z pojęciami cyfryzacji i digitalizacji. W artykule przedstawiono dwa inteligentne urządzenia zaprojektowane przez IHP, rozdzielacz proporcjonalny i siłownik cyfrowy oraz dwa inteligentne stanowiska, jeden z serwozaworów oraz jeden z cyfrowych siłowników hydraulicznych, stosowane w laboratorium, które ze względu na wyposażenie i procedury robocze są rozwiązaniami inteligentnej hydrauliki.
Czasopismo
Rocznik
Tom
Strony
39--47
Opis fizyczny
Bibliogr. 20 poz., rys., zdj/
Twórcy
autor
- National R&D Institute for Optoelectronics, Subsidiary Hydraulics and Pneumatics Research Institute INOE 2000-IHP, Bucharest, Romania
autor
- National R&D Institute for Optoelectronics, Subsidiary Hydraulics and Pneumatics Research Institute INOE 2000-IHP, Bucharest, Romania
autor
- National R&D Institute for Optoelectronics, Subsidiary Hydraulics and Pneumatics Research Institute INOE 2000-IHP, Bucharest, Romania
autor
- National R&D Institute for Optoelectronics, Subsidiary Hydraulics and Pneumatics Research Institute INOE 2000-IHP, Bucharest, Romania
Bibliografia
- [1] Marin V., Moscovici R., Teneslav D.: Sistemehidraulice de actionare si reglare automata (Hydraulic drive and automatic adjustment systems), Technical Publishing House Bucharest, 1987.
- [2] Comes M., Duțu I., Vasile Al.: Sistem mecatronic de pompare a fluidelor sterile (Sterile fluid mechatronic pumping system), Proceedings of HERVEX, 2007.
- [3] Wang B., Ji H., Chang R.: Position Control with ADRC for a Hydrostatic Double-Cylinder Actuator, Actuators Journal, 2020.
- [4] Linjama M., Vihtanen H.-P., Sipola A., Vilenius M.: Secondary controlled multi-chamber hydraulic cylinderIn: Conference paper at the 11th Scandinavian International Conference on Fluid Power, Linköping,Sweden, 2009.
- [5] Scheidl R., Linjama M., Schmidt S.,Is the future of fluid power digital? Proceedings of the Institution of Mechanical Engineers. Part I, Journal of Systems and Control Engineering, 2012.
- [6] Brandstetter R., Deubel T., Scheidl R., Winkler B.: Digital hydraulics and "Industrie 4.0", paper in Proceedings of the Institution of Mechanical Engineers.Part I Journal of Systems and Control Engineering, 2016.
- [7] Theissen H.: Fluid Power For Sustainbility. In: Conference paper at International Conference of Hydraulics and Pneumatics-HERVEX,7-9, Calimanesti-Caciulata, Romania, November 2012.
- [8] Vukovic M., Murrenhoff H.: The next generation of fluid power systems.Procedia Engineering, No.106, 2015.
- [9] Ivanovici M., Coliban R.: Cuantizarea semnalelor (Quantization of signals),Ch.8,Laboratory guide, Transilvania University of Brasov Publishing House, 2018.
- [10] Frost & Sullivan: Smart Hydraulics: Giving the Hydraulics Industry a Second Wind, 2018.
- [11] Ma Z., Wang S, Shi J., LI T., Wang X.: Fault diagnosis of an intelligent hydraulic pump based on a nonlinear unknown input observer. Chinese Journal of Aeronautics, 31(2), 2018.
- [12] Athanasos P., Costopoulos T.: Condition monitoring techniques for industrial fluid power systems. In: Conference paperat 1st International Conference on Experiments / Process / System Modelling /Simulation / Optimization, Athens Greece, 2005.
- [13] Duţu I., Dumitrescu C., Matache G.: Smart diagnosis of proportional electrohydraulic equipment using specific virtual instruments. Romanian Review Precision Mechanics, Optics and Mechatronics, No. 43, 2013.
- [14] Munziger C., Weis M., Herder S.: Smart adaptronic hydrostatic guiding system for machine tool slides. In: Proceedings of SPIE -The International Society for Optical Engineering, The 16th International Symposium on: Smart Structures and Materials & Nondestructive Evaluation and Health Monitoring, 2009.
- [15] Banyai D., Vaida L.: Electro-hydraulic control system for variable displacement machines. In: Conference paperat 12th International Conference „Automation in Production Planning and Manufacturing“, At: Zilina Slovacia, 2011.
- [16] Duţu I., Matache G.: Computer assisted electro-hydraulic stand for testing servovalves, Hidraulica, No. 3 –4, 2012.
- [17] Weber J., Lohse H., Thermo-energetic Analysis of the Fluid System in Cutting Machine Tools, In: Confeence paper 10IFK in Dresden, 2016.
- [18] https://en.wikipedia.org/wiki/Modbus[accessed on 1.10.2020].
- [19] Costa G. K., Sepehri N.:A Critical Analysis of Flow-Compensated Hydrostatic Single Rod Actuators: Simulation Study, Actuators Journal, 2020.
- [20] Costa G.K. Sepehri N.:A Critical Analysis of Valve-Compensated Hydrostatic Actuators: Qualitative Investigation, Actuators Journal, 2019.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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