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Abstrakty
The purpose of a car jack is lifting the car and maintaining it at a certain height during different repairs. This paper focuses on the design of car jack, which belongs to the basic equipment of cars. Cars jacks are used mainly for changing tires and small repairs of a car. The aim of this paper was to create a parametric CAD model of a car jack and carry out numerical structural analysis of the car jack using the created parametric CAD model. The development of the parametric CAD model and structural analysis was performed using the CATIA V5 system. This paper describes the modern way of creating more complex mechanisms, which support quick modification of its parameters, and thus the entire design. The whole model of the car jack was parametrized. The stresses obtained by finite element method (FEM) analysis were confirmed with the analytical calculation in characteristic parts of the design, with some exceptions. At the end of the paper, an analysis of the obtained results was performed, on the basis of which specified conclusions were made.
Wydawca
Rocznik
Tom
Strony
24--30
Opis fizyczny
Bibliogr. 20 poz., fig., tab.
Twórcy
autor
- University of Sarajevo, Mechanical Engineering Faculty Sarajevo , Vilsonovo šetalište br. 9, Sarajevo, Bosnia and Herzegovina
autor
- University of Sarajevo, Mechanical Engineering Faculty Sarajevo , Vilsonovo šetalište br. 9, Sarajevo, Bosnia and Herzegovina
autor
- University of Sarajevo, Mechanical Engineering Faculty Sarajevo , Vilsonovo šetalište br. 9, Sarajevo, Bosnia and Herzegovina
autor
- University of Sarajevo, Mechanical Engineering Faculty Sarajevo , Vilsonovo šetalište br. 9, Sarajevo, Bosnia and Herzegovina
Bibliografia
- 1. Budynas, G.R., Nisbett, J.K. Shigley’s Mechanical Engineering Design, 8th edition. McGraw-Hill Education, New York, 2008.
- 2. Chang S.D., Liaw H.S. Motor Driven Scissor Jack forAutomobiles. US Patent Number 4653727, Da Li Hsien, TW, 1987.
- 3. Delić, M., Čolić, M., Mešić, E. and Pervan, N. Analytical Calculation And FEM Analysis Main Girder Double Girder Bridge Crane. TEM Journal. 6(1), 2017, 48–52.
- 4. Delić, M., Pervan, N., Čolić, M. and Mešić, E. Theoretical and experimental analysis of the main girder double girder bridge cranes. International Journal of Advanced and Applied Sciences, 6(4), 2019, 75–80.
- 5. Farmer D.E. Automatic Jack and Wheel Change System. US Patent Number 6237953, Mt. Gay, WV, 2001.
- 6. Mešić, E., Avdić, V., Pervan, N. and Repčić, N. Finite element analysis and experimental testing of stiffness of the Sarafix external fixator. Procedia Engineering, 100, 2015, 1598–1607.
- 7. Mešić, E., Pervan, N., Repčić, N. and Muminović, A. Research of influential constructional parameters on the stability of the fixator Sarafix. Annals of DAAAM for 2012 & Proceedings of the 23rd International DAAAM Symposium „Intelligent Manufacturing & Automation: Focus on Sustainability”, Editor: Katalinic B., Zadar, Croatia, October 24th-27th, 2012, 561–564.
- 8. Mešić, E., Avdić, V. and Pervan, N. Numerical and experimental stress analysis of an external fixation system. Folia Medica Facultatis Medicinae Universitatis Saraeviensis, 50(1), 2015, 74–80.
- 9. Mešić, E., Muminovic, J. A. and Repčić, N. Geometrical modelling and structural analysis of the Sarafix fixator configurations. Annals of DAAAM for 2012 & Proceedings of the 23rd International DAAAM Symposium „Intelligent Manufacturing & Automation: Focus on Sustainability”, Editor: Katalinic B., Zadar, Croatia, October 24th-27th, 2012, 69–74.
- 10. Mickael, E. Motor Driven Scissor Jack with Limit Switches. US Patent Number 6695289 B1, 2004.
- 11. Muminovic, J. A., Saric, I. and Repcic, N. Numerical Analysis of Stress Concentration Factors. Procedia Engineering, 100, 2015, 707–713.
- 12. Muminovic, J. A., Braut, S., Muminovic, A. and Saric, I. Numerical and analytical analysis of elastic rotor natural frequency. TEM Journal, 3(4), 2014, 323–328.
- 13. Pervan, N., Mešić, E., Čolić, M. and Avdić, V. Stiffness Analysis of the Sarafix External Fixator based on Stainless Steel and Composite Material. TEM Journal, 4(4), 2015, 366–372.
- 14. Pervan, N., Mešić, E. and Čolić, M. Stress analysis of external fixator based on stainless steel and composite material. International Journal of Mechanical Engineering & Technology, 8(1), 2017, 189–199.
- 15. Pervan, N., Mešić, E., Čolić, M. and Avdić, V. Stiffness analysis of the sarafix external fixator of composite materials. International Journal of Engineering & Technology, 5(1), 2016, 20–26.
- 16. Pervan, N., Čolić, M., Šarić, I. and Hadžiabdić, V. Analysis of the Haulage Ropes on Ropeways in Case of Accidental Loads. TEM Journal, 5(2), 2016, 171–174.
- 17. Pickles J. Portable Powered Screw Jack Actuator Unit. US Patent Number 4749169, Troy, MI, 1988.
- 18. Saric I., Pervan N., Muminovic A. and Colic, M. Development of Integrated Intelligent Cad System for Design of Shafts. Tehnički vjesnik, 25(Supplement 1), 2018, 99–104.
- 19. Saric I. and Muminovic A. J. Development of integrated intelligent CAD system for synthesis and stress-deformation analysis of pressure vessels. International Journal of Engineering & Technology, 7(1), 2018, 147–151.
- 20. Whittingham R.P. Vehicle Jack. US Patent Number 4969631,Tustin, CA, 1990.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-22a68e9e-49ab-4190-9259-65bdb2b4c98f