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Design of a manipulator of a conveyor for bulk materials – calculation of the center of gravity of the conveyor

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The predominant goal of the research presented in this paper is the design of a manipulator for a conveyor of bulk materials based on the given requirements. This issue is an emerging topical one mainly for the reasons of increasing efficiency and speed, as well as the safety of maintenance of machines and equipment. Especially, another essential aspect is the reduction of the physical strain on operators during service operations on the conveyor of bulk materials. The introductory part of this paper attends to the materials used for the production of steel structures, their technological processing, as well as different types of joining of their components. The practical part was set out to ascertain the mass and position of the center of gravity of the load itself – the conveyor. From the perspective of acting, it loads the entire proposed structure, although in different operating modes.
Rocznik
Tom
Strony
43--56
Opis fizyczny
Bibliogr. 17 poz.
Twórcy
  • University of Žilina, Faculty of Mechanical Engineering, Department of Transport and Handling Machines, Univerzitná 8215/1, 010 26 Žilina, Slovakia
autor
  • University of Žilina, Faculty of Mechanical Engineering, Department of Transport and Handling Machines, Univerzitná 8215/1, 010 26 Žilina, Slovakia
  • University of Žilina, Faculty of Mechanical Engineering, Department of Transport and Handling Machines, Univerzitná 8215/1, 010 26 Žilina, Slovakia
  • Faculty of Mechanical Engineering, Lublin University of Technology, ul. Nadbystrzycka 36, 20-618 Lublin
Bibliografia
  • 1. Dekys V., P. Kopas, M. Sapieta, O. Stevka. 2014. „A detection of deformation mechanisms using infrared thermography and acoustic emission”. Applied Mechanics and Materials 474: 315-320. ISSN: 1660-9336. DOI: 10.4028/www.scientific.net/AMM.474.315.
  • 2. Pastorek P., P. Novak, P. Kopas, M. Mocilan. 2017. “Finite element analysis of bond behavior in a steel reinforced concrete structure strengthened carbon fibre reinforced polymer (CFRP) strips”. Metalurgija 56: 405-408. ISSN: 0543-5846.
  • 3. Mician M., R. Konar. 2017. “Repairs of damaged castings made of graphitic cast iron by means of brazing”. Archives of Foundry Engineering 17: 91-96. ISSN: 1897-3310. DOI: 10.1515/afe-2017-0097.
  • 4. Mician M., M. Patek, A. Sládek. 2014. “Concept of repairing branch pipes on highpressure pipelines by using split sleeve”. Manufacturing Technology 14: 60-66. ISSN: 1213-2489.
  • 5. Fomin O., J. Gerlici, G. Vatulia, A. Lovska, K. Kravchenko. 2021. “Determination of the loading of a flat rack container during operating modes”. Applied Sciences 11: 1-13. ISSN: 2076-3417. DOI: 10.3390/app11167623.
  • 6. Gerlici J., T. Lack, J. Harusinec. 2014. “Development of test stand prototype for rail vehicles brake components testing”. Communications – Scientific Letters of the University of Zilina 16: 27-32. ISSN: 1335-4205.
  • 7. Jakubovicova L., A. Sapietova, J. Moravec. 2018. “Static analysis of transmission tower beam structure”. MATEC Web of Conferences 244: 1-9. ISSN: 2261-236X. DOI: 10.1051/matecconf/201824401011.
  • 8. Harusinec J., A. Suchanek, M. Loulova, P. Kurcik. 2019. “Design of a prototype frame of an electrically driven three-wheel vehicle”. MATEC Web of Conferences 254: 1-9. ISSN: 2261-236X. DOI: 10.1051/matecconf/201925402014.
  • 9. Harušinec J., A. Suchánek, M. Loulová, P. Strážovec. 2017. “Design of a device to simulate environmental influences on the course of brake tests”. MATEC Web of Conferences 157: 1-9. ISSN: 2261-236X. DOI: 10.1051/matecconf/201815702013.
  • 10. Štastniak P., L. Smetanka, M. Moravcík. 2018. „Structural analysis of a main construction assemblies of the new wagon prototype type zans”. Manufacturing Technology 18: 510-517. ISSN: 1213-2489. DOI: 10.21062/ujep/130.2018/a/1213-2489/MT/18/3/510.
  • 11. Stastniak P., M. Moravcik, L. Smetanka. 2019. „Investigation of strength conditions of the new wagon prototype type Zans”. MATEC Web of Conferences 254: 1-11. ISSN: 2261-236X. DOI: 10.1051/matecconf/201925402037.
  • 12. Schrek A., A. Brusilová, P. Švec, Z. Gábrišová, J. Moravec. 2020. “Analysis of the drawing process of small-sized seam tubes”. Metals 10: 1-19. ISSN: 2075-4701. DOI: 10.3390/met10060709.
  • 13. Fomin O., J. Gerlici, A. Lovskaya, K. Kravchenko, O. Burlutski, V. Hauser. 2019. “Peculiarities of the mathematical modelling of dynamic loading on containers in flat wagons transportation”. MATEC Web of Conferences 254: 1-9. ISSN: 2261-236X. DOI: 10.1051/matecconf/201925402039.
  • 14. Fomin O., J. Gerlici, A. Lovskaya, K. Kravchenko, P. Prokopenko, A. Fomina, V. Hauser. 2018. “Research of the strength of the bearing structure of the flat wagon body from round pipes during transportation on the railway ferry”. MATEC Web of Conferences 235: 1-5. ISSN: 2261-236X. DOI: 10.1051/matecconf/201823500003.
  • 15. Chang X., A. Sharma. 2022. “Analysis and Design of General Bridge Crane Structure using CAD Technology”. Computer-Aided Design and Applications 19: 15-25. ISSN: 1686-4360. DOI: 10.14733/cadaps.2022.S2.15-25.
  • 16. Bhatia A. 2014. Overview of Electric Overhead Traveling (EOT) Cranes: e-Book. South Carolina: CreateSpace Inde-pendent Publishing Platform. ISBN: 978-1502515933.
  • 17. Suratkar A., V. Shukla, K.S. Zakiuddin. 2013. Design Optimization of Overhead EOT Crane Box Girder Using Finite Element Analysis. International Journal of Engineering Research and Technology 2: 720-724. ISSN: 2278-0181.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-55872f64-8ae3-4bca-8ecc-b374b206c321
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