A. Akshay
Department of Mechanical Engineering
Vidyavardhaka College of Engineering, India
Email id: akshaygowda47@gmail.com
Dr. S A Mohan Krishna
Department of Mechanical Engineering
Vidyavardhaka College of Engineering, India
Email id: mohankrishnasa@vvce.ac.in
B Parikshit
Department of Mechanical Engineering
Vidyavardhaka College of Engineering, India
Email id: pbparibhaskar@gmail.com
P C Deelaksha
Department of Mechanical Engineering
Vidyavardhaka College of Engineering, India
Email id: deelaskharanjith@gmail.com
Supreeth K A
Department of Mechanical Engineering
Vidyavardhaka College of Engineering, India
Email id: supreethka@gmail.com
Abstract
Weightlifting machine is a machine, generally equipped with a chain rope or wire rope used for lifting the material. It is used for lifting heavy things. This machine moves load beyond the normal capability of a human. On search it was found that weightlifters need mounting support for its operation to a hard surface, some machines require manual held rotation to lift weight after mounting. Hence if someone wants to lift weight in the different location in the same balcony, User has to unmount from existing place and should mount in other location. This paper explains the use of a portable lifter machine gun like structure with a handle as a grip to engage weights up to 20 kg.
Keywords
Lifting, Technological, Vehicles, Geometrical, Machines, Mounting and Lifter.
Cited as
A. Akshay, S. A. Mohan Krishna, B. Parikshit, P. C. Deelaksha and Supreeth K. A., “Development, Fabrication and Implementation of an Automatic Portable Lifter Device,” International Journal of Advanced Engineering and Management, vol. 3, no. 1, pp. 24-27, 2018
References
- Tiwari, S. J., Padole V. (2015). Design, Analysis and Material Optimization of Laminated Crane Hook: A Review. International Journal of Analytical, Experimental and Finite Element Analysis, 3(2), 109-111.
- Pawar, S. S., Kejkar, S., Lonawade, B., & Ingle, A. H. (2017). Material Handling and Weight Lifting Machine. International Journal of Research In Science & Engineering, 3(2), 216-223.
- Brown, A. B., McCartney, N., & Sale, D. G. (1990). Positive adaptations to weight-lifting training in the elderly. Journal of applied physiology, 69(5), 1725-1733.
- Ness, R. G., & Patton, R. W. (1979). The effect of beliefs on maximum weight-lifting performance. Cognitive Therapy and Research, 3(2), 205-211.
- McCaw, S. T., & Friday, J. J. (1994). A comparison of muscle activity between a free weight and machine bench press. J Strength Cond Res, 8(4), 259-64.
- Merlet, J. P., & Daney, D. (2010, May). A portable, modular parallel wire crane for rescue operations. In Robotics and Automation (ICRA), 2010 IEEE International Conference on(pp. 2834-2839). IEEE.
- Tripathi, Y., & Joshi, U. K. (2013). Investigation Stress of A Lifting Hook with Different Methods: A Review. International Journal of Emerging Trends in Engineering and Development, 1(3), 2249-6149.
- Bergaley, A., & Purohit, A. (2013). Structural Analysis of Crane Hook Using Finite Element Method. International Journal of Science and Modern Engineering, 1, 3-7.
- Wu, D., Lin, Y., Wang, X., Wang, X., & Gao, S. (2010). Algorithm of crane selection for heavy lifts. Journal of Computing in Civil Engineering, 25(1), 57-65.
- Sacks, R., Navon, R., Brodetskaia, I., & Shapira, A. (2005). Feasibility of automated monitoring of lifting equipment in support of project control. Journal of construction engineering and management, 131(5), 604-614.
- Benkar, C. N., & Wankhade, D. N. (2014). Finite element stress analysis of crane hook with different cross sections. International Journal For Technological Research In Engineering, 1(9), 868-872.
- Bhandari, V. B. (2014). Machine Design data book. McGraw-Hill Education.
- Mulcahy, D. E. (1999). Materials handling handbook. New York: McGraw-Hill.