Control system of laboratory stand for gearbox
and coupling testing
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Control system of laboratory stand for gearbox
and coupling testing
Publication date: 13.01.2016
Technical Transactions, 2015, Mechanics Issue 2-M (7) 2015, pp. 271 - 279
Authors
Control system of laboratory stand for gearbox
and coupling testing
The scheme control system of a laboratory stand for gearbox and coupling testing, capable of fulfilling many miscellaneous requirements has been described in the paper. The innovative solution, as well as the benefits of the application, based on the Program Logic Controller, connected with electrical motor drives and a computer measurement system, have been described and depicted. Special features of the suggested solution, such as flexibility and ability to develop or adjust for another application, have been characterized.
[1] IshIhara T., A Study of Hydraulic Torque Converter, II Report of University of Tokyo, Vol. 5, No. 7, Tokyo 1955.
[2] Herbertz R., Untersuchung des dynamischen Verhaltens von Fttinger – Getrieben, Dissertation, Technishen Universitt Hannover, Hannover 1973.
[3] Pawelski Z., Badanie charakterystyk przekładni hydrokinetycznej przy wybranych nieustalonych stanach obciążeń, Praca doktorska, Politechnika Łódzka, Łódź 1980.
[3] Behrens H., Nichtlineare Modellierung und Identifikation hydrodynamischer Kupplungen mit allgemeinen diskreten Modellansätzen, Dissertation. Ruchr Universität Bochum, Bochum 1977.
[4] Kęsy Z., Sterowanie przekładni hydrokinetycznej cieczą roboczą, Monografia, Wydawnictwo Politechniki Radomskiej, Radom 2003.
[5] Behrens H., Jaschke P., Steinhausen J., Waller H., Modelling of Technical Systems: Application to Hydrodynamic Torque Converters and Couplings, Mathematical and Computer Modeling of Dynamical Systems, No. 3/2006.
[6] Woźniak M., Badania stanowiskowe i symulacyjne własności dynamicznych przekładni hydrokinetycznej, Praca doktorska, Politechnika Łódzka, Łódź 2010.
[7] Kęsy A., Olszak A., Sarnik P., Przekładnia hydrokinetyczna o małej mocy, Hydraulika i Pneumatyka, nr 4/2010.
[8] Kęsy A., De La Fuente P., Migus M., Wywoływanie obciążeń dynamicznych w badaniach stanowiskowych podzespołów hydrokinetycznych, Napędy i Sterowanie, nr 7/8 Lipiec–Sierpień 2011.
[9] Podręcznik Użytkownika Wersja podstawowa Unidrive SP, Numer katalogowy: 0471-0033-02, Wydanie: 2.
[10] Siemens Simatic, ET 200S distributed I/OIM 151-8 PN/DP CPU interface module System manual A5E02049034-02, 6/2010, http://cache.automation.siemens.com/dnl/TA/TA1NzY3MwAA_47409312_HB/et200s_im151_8_pn_dp_cpu_operating_instructions_en-US_en-US.pdf.
[11] User Guide SM-PROFINET Solutions Module for: Unidrive SP, Commander SK, Digitax ST, Mentor MP, Affinity Part Number: 0471-0163-03 Issue Number: 3.
[12] Siemens Simatic, PROFINET System Description, System manual A5E00298288- 04, 06/2008, http://www.siemens.fi/pool/products/industry/iadt_is/tuotteet/automaatiotekniikka/teollinen_tiedonsiirto/profinet/man_pnsystem_description.pdf.
Information: Technical Transactions, 2015, Mechanics Issue 2-M (7) 2015, pp. 271 - 279
Article type: Original article
Titles:
Control system of laboratory stand for gearbox
and coupling testing
Control system of laboratory stand for gearbox
and coupling testing
Institute of Applied Informatics, Faculty of Mechanical Engineering, Cracow University of Technology
Institute of Applied Mechanics and Energetics, Faculty of Mechanical Engineering
Institute of Applied Mechanics and Power Engineering, Faculty of Mechanical Engineering
Published at: 13.01.2016
Article status: Open
Licence: None
Percentage share of authors:
Article corrections:
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