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Optimalisation of the blade movement of the mower

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EN
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EN
This article presents the correct adjustment of the mower’s blade movement relative to the forward movement of the mower. Everywhere around us are gardens, parks and meadow, which gives us reason to solve issues with mowing. The first part of this article shows agricultural machines, which are used today and the principle of correct cut of grass stalks. The next part shows the method of adjusting the mower’s blade speed. Design of a simple model was done with the use of Solid Edge Premium CAD. For computation, MSC Adams was used and post-processing was done with the use of Matlab. The connection between MSC Adams and Matlab was created by co-simulation.
Słowa kluczowe
Rocznik
Tom
Strony
213--222
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
  • Faculty of Mechanical Engineering, University of Žilina, Univerzitná 1 Street, 010 26 Žilina, Slovakia
  • Faculty of Mechanical Engineering, University of Žilina, Univerzitná 1 Street, 010 26 Žilina, Slovakia
  • Faculty of Mechanical Engineering, University of Žilina, Univerzitná 1 Street, 010 26 Žilina, Slovakia
  • Faculty of Mechanical Engineering, University of Žilina, Univerzitná 1 Street, 010 26 Žilina, Slovakia
Bibliografia
  • 1. Caban J., P. Drozdziel, J. Vrábel, B. Šarkan, A. Marczuk, L. Krzywonos, I. Rybicka. 2016. „The research on ageing of glycol-based brake fluids of vehicles in operation”. Advances in Science and Technology 10(32): 9-16.
  • 2. Caban J., A. Marczuk, B. Šarkan, J. Vrábel. 2015. „Studies on operational wear of glycol-based brake fluid”. Przemysł Chemiczny 94(10): 1802-1806.
  • 3. Czech Piotr. 2012. „Determination of the course of pressure in an internal combustion engine cylinder with the use of vibration effects and radial basis function - preliminary research”. Communications in Computer and Information Science 329: 175-182. DOI https://doi.org/10.1007/978-3-642-34050-5_21. Springer, Berlin, Heidelberg. ISBN:978-3-642-34049-9. ISSN: 1865-0929. In: Mikulski Jerzy (eds), Telematics in the transport environment, 12th International Conference on Transport Systems Telematics, Katowice Ustron, Poland, October 10-13, 2012.
  • 4. Czech Piotr. 2011. „Diagnosing of disturbances in the ignition system by vibroacoustic signals and radial basis function - preliminary research”. Communications in Computer and Information Science 239: 110-117. DOI https://doi.org/10.1007/978-3-642-24660-9_13. Springer, Berlin, Heidelberg. ISBN:978-3-642-24659-3. ISSN: 1865-0929. In: Mikulski Jerzy (eds), Modern transport telematics, 11th International Conference on Transport Systems Telematics, Katowice Ustron, Poland, October 19-22, 2011.
  • 5. Faturík Lukáš, Libor Trško, Slavomír Hrček, Otakar Bokuvka. 2014. „Comparison of structural design in high and ultra-high cycle fatigue regions”. Transactions of FAMENA 38(4): 1-12. ISSN 1333-1124.
  • 6. Figlus Tomasz, Mateusz Koziol. 2016. „Diagnosis of early-stage damage to polymer - glass fibre composites using non-contact measurement of vibration signals”. Journal of Mechanical Science and Technology 30(8): 3567-3576. ISSN 1738-494X. DOI: 10.1007/s12206-016-0717-1.
  • 7. Gąska Damian, Tomasz Haniszewski. 2016. “Modelling studies on the use of aluminium alloys in lightweight load-carrying crane structures”. Transport Problems 11(3): 13-20. DOI: 10.20858/tp.2016.11.3.2. ISSN: 1896-0596.
  • 8. Glowacz Adam, Zygfryd Glowacz. 2017. „Diagnosis of the three-phase induction motor using thermal imaging”. Infrared physics & technology 81: 7-16. ISSN 1350-4495. DOI: 10.1016/j.infrared.2016.12.003.
  • 9. Glowacz Adam, Zygfryd Glowacz. 2017. „Diagnosis of stator faults of the single-phase induction motor using acoustic signals”. Applied acoustic 117A: 20-27. ISSN 0003-682X. DOI: DOI: 10.1016/j.apacoust.2016.10.012.
  • 10. Haniszewski Tomasz, Damian Gaska. 2017. “Numerical modelling of I-Beam jib crane with local stresses in wheel supporting flanges - influence of hoisting speed”. Nase More 64(1): 7-13. DOI: 10.17818/NM/2017/1.2. ISSN: 0469-6255.
  • 11. Kai-Sheng Wang, Chen-Kang Huang. 2018. “Intelligent Robotic Lawn Mower Design”. International Conference on System Science and Engineering (ICSSE). DOI: 10.1109/ICSSE.2018.8520053.
  • 12. Kohár Róbert, Slavomír Hrček. 2014. „Dynamic Analysis of a Rolling Bearing Cage with Respect to the Elastic Properties of the Cage for the Axial and Radial Load Cases”. Communications – Scientific Letters of the University of Zilina 16(3A): 74-81. ISSN 1335-4205.
  • 13. Koziol Mateusz, Tomasz Figlus. 2017. „Evaluation of the Failure Progress in the Static Bending of GFRP Laminates Reinforced With a Classic Plain-Woven Fabric and a 3D Fabric, by Means of the Vibrations Analysis”. Polymer composites 38(6): 1070-1085.
  • 14. Rudecki M., O. Kildisheva. 2013. „A modified sickle bar mower: increased flexibility for harvesting native plant seeds”. Native Plants Journal 14(3): 257-260. DOI: 10.3368/npj.14.3.257.
  • 15. Siregar Ikhsan, Anggi Ridho, Dinda Gustia, Agung Triono, Yulia Shafira. 2018. “Product design of a lawn mower tool for agriculture”. Conference Series Materials Science and Engineering 420(1): 1-11. DOI: 10.1088/1757-899X/420/1/012140.
  • 16. Skrúcaný Tomáš, Branislav Šarkan, Tomasz Figlus, et al. 2017. „Measuring of noise emitted by moving vehicles”. MATEC Web of Conferences 107: 00072. ISBN: 978-1-5108-4114-7. DOI: https://doi.org/10.1051/matecconf/201710700072.
  • 17. Škrabala Jozef. 2018. „Design of the remote controlled mower“. Diploma thesis, Bratislava: Slovak University of Technology in Bratislava.
Uwagi
PL
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
bwmeta1.element.baztech-c4f68c59-59bc-406a-a8cf-78df95b071b3
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