Perancangan dan analisis kekuatan statis pada fixed-portable hydraulic scissor car lift platform dengan kapasitas 2 ton

Article Sidebar

PDF
Published: Dec 1, 2022
DOI: https://doi.org/10.24853/sintek.16.2.92-103

Main Article Content

Igor Vinicius De Souza Lima
Institut Teknologi Indonesia
J Victor Tuapetel
Institut Teknologi Indonesia
Achmad Zaki Rahman
Institut Teknologi Indonesia

Abstract

The large number of vehicles (cars) currently available causes an increase in demand for vehicle services and maintenance. Required availability of equipment that results in effectiveness and efficiency in its maintenance. The scissor lift model was chosen because it is portable and does not require much space for use in workshops. The design of a lifting device that uses a scissor lifting type hydraulic system that can be used fixed-portable for MPV type vehicles or vehicles weighing under 2 tons was carried out. The designed platform is then calculated and analyzed for its structural strength using FUSION 360 and FTOOL software. The calculation results show that the total stress  is less than the permissible stress , then the material meets the strength requirements () and is declared safe. From the FEA Stress Von Mises simulation results, the total stress on the structure is smaller than the material stress. Due to the calculation using = 1.5 and the safety factor from the simulation results is greater than the safety factor used in the design, the design meets the strength requirements and is declared safe.

Article Details

How to Cite
[1]
I. V. De Souza Lima, J. V. Tuapetel, and A. Z. Rahman, “Perancangan dan analisis kekuatan statis pada fixed-portable hydraulic scissor car lift platform dengan kapasitas 2 ton”, sintek. jurnal. ilm. teknik. mesin, vol. 16, no. 2, pp. 92–103, Dec. 2022.
Issue
Vol. 16 No. 2 (2022): SINTEK JURNAL
Section
Articles

Creative Commons License

  • Articles published in SINTEK JURNAL are licensed under a Creative Commons Attribution-ShareAlike 4.0 International license. You are free to copy, transform, or redistribute articles for any lawful purpose in any medium, provided you give appropriate credit to the original author(s) and SINTEK JURNAL, link to the license, indicate if changes were made, and redistribute any derivative work under the same license.
  • Copyright on articles is retained by the respective author(s), without restrictions. A non-exclusive license is granted to SINTEK JURNAL to publish the article and identify itself as its original publisher, along with the commercial right to include the article in a hardcopy issue for sale to libraries and individuals.

References

A. C. Ugural, Mechanical design of machine components, CRC Press, 2015.

A. M. Zainuri, Kekuatan bahan, Penerbit ANDI, 2008.

D. B. Firmansyah & H. Pranoto, Analisa Kekuatan Rangka Dudukan Cylinder Hidrolik Scissor Lift. Jurnal Teknik Mesin, vol. 8, no. 3, 2019, pp. 142-156.

D. H. Ningsih, Computer Aided Design/Computer Aided Manufactur [CAD/CAM]”. Jurnal Teknologi Informasi DINAMIK, vol. 10, no. 3, pp. 143-149.

E. P. Popov, Mekanika Teknik, Penerbit Erlangga, 1991.

E. Ribut, Pekerjaan dasar Teknik otomotif, Kementerian Pendidikan dan Kebudayaan Republik Indonesia, 2013.

Gere and Timoshenko. Mekanika Bahan, Penerbit Erlangga, 1997.

R. Gunawan, Tabel profil konstruksi baja, Penerbit Kanisius, 1993.

Sularso & Suga K, Dasar perencanaan dan pemilihan elemen mesin, PT. AKA, 2004.

G. Z. Guangli, Scissor Lift Spray Booth, 2021. Website: https://id.gzguangli.com/spray-booth_c2, diakses tanggal 20 Mei 2021.

Innovator, Portable Scissor Lift, 2021. Website: https://www.innovator-tech.com/en/65-scissor-lift, diakses tanggal so Mei 2021.

J. Muharam, dkk, Penggunaan Dan Pemeliharaan Peralatan Dan Perlengkapan Tempat Kerja, Direktorat Pembinaan Sekolah Menengah Kejuruan, 2005.

Wesli, Mekanika rekayasa, Penerbit Graha Ilmu, 2010.

R. C. Hibbeler, Mechanics of material, Pearson Prentice Hall, 2011.

Company. Castle Equipment, Weaver Auto Hoist, 2014. Website:http://www.castleequipment.com/Museum/lifts_weaver_history.htm, diakses tanggal 10 Mei 2021.

Effendi, R., Maghfurah, F., Strength Analysis of Steel Construction and Swing Hanger Using Theoretical Method and Simulation of Finite Element, JEMMME (Journal of Energy, Mechanical, Material, and Manufacturing Engineering), 2019; 4: 119-128.

C. G. Dengiz, M.C. Şenel, K. Yıldızlı, E. Koç, Design and Analysis of Scissor Lifting System by Using Finite Elements Method, Universal Journal of Materials Science, vol. 6, no. 2, 2018, pp. 58-63.

S. G. Thorat, A. R. Chiddarwar and S. P. Prusty, Design and Construction of Scissor Lift, International Journal of Current Engineering and Technology, special issue, no. 7, pp. 92-95.

G. G. Momin, R. Hatti, K. Dalvi, F. Bargi, and R. Devare, Design, Manufacturing & Analysis of Hydraulic Scissor Lift. International Journal of Engineering Research and General Science, vol. 3, Issue 2, Part 2, pp. 733-740.

L. M. Shandong, Heavy Duty Underground Scissor Car Lift Car Parking System, 2021. Website: https://www.scissorslifttable.com/quality-11351268-heavy-duty-underground-scissor-car-lift, diakses tanggal 20 Mei 2021.