Material Handling Equipment

Authors

  • S. Kamble  Student, HSBSVT'S Parikrama Polytechnic, Kashti, Maharashtra, India
  • H. Ukande  Student, HSBSVT'S Parikrama Polytechnic, Kashti, Maharashtra, India
  • T. Savant  Student, HSBSVT'S Parikrama Polytechnic, Kashti, Maharashtra, India
  • A. Haral  Student, HSBSVT'S Parikrama Polytechnic, Kashti, Maharashtra, India
  • S. Pawar  Prof. HSBSVT'’S Parikrama Polytechnic, Kashti, Maharashtra, India

Keywords:

Rack-Pinion,Spring, AGV, weight

Abstract

In ordered to propelled dead weight type automatic guided vehicle, we have treated rack pinion mechanism to conventional AGV in order to acquires self-propelled motion to materialhandling conventional AGV by utilizing rack and pinion motion transfer in this type of mechanism we have using rack and pinion type gear rack and pinion type gear are connected to platform, four springs are connected each corner of the platform so it will be acts power saving units. When dead weight is kept in the platform, platform moves downward direction so there exist gear train, it is subjected to lower portion (front or real axle of the vehicle). When gravitational force is applied on the platform and then platform is moves downward direction. When weight is removed from the platform, vehicle move backward direction without application of external force.

References

  1. Abhijeet R. Maske, Mahadhan M. Jadhav, Laximan B. Shinde And Yogesh N. Sule-Patil, Design and Fabrication of Spring Operated Material Handling Equipment, International Journal of Trend in Research and Development, Volume 3(2), ISSN: 2394-9333
  2. Prof. Darade P. P, Bhivsan V. D, Gadhe A. S, Bodke Y. A, Gadakh R. K, Material Handling Equipment (Operated by Job Weight), International Journal of Emerging Technology and Advanced Engineering, (ISSN 2250-2459, ISO 9001:2008 Certified Journal, Volume 7, Issue 4, April 2017)
  3. Federico Rossi, Beatrice Castellani, Andrea Nicolini, Benefits and Challenges of Mechanical Spring Systems for Energy Storage Applications ATI 2015 - 70th Conference of The ATI Engineering Association.
  4. Aniket A Jagtap, Shubham D Vaidya, Akash R Samrutwar, Rahul G Kamadi And Nikhil V Bhende, Design of Material Handling Equipment: Belt Conveyor System for Crushed Biomass Wood Using V Merge Conveying
  5. System, International Journal of Mechanical Engineering and Robotics Research, ISSN Vol. 4, No. 2, April 2015
  6. Federico Rossi, Beatrice Castellan, Andrea Nicolini, Benefits and Challenges of Mechanical Spring Systems for Energy Storage Applications, ATI 2015 - 70th Conference of The ATI Engineering Association.
  7. Christopher Ehrmanna*, Philippe Isabeyb, Jurgen Fleischer, Condition Monitoring of Rack and Pinion Drive Systems: Necessity and Challenges In Production Environments, 13th Global Conference On Sustainable Manufacturing - Decoupling Growth From Resource Use.
  8. Y. Yamazaki K. Shigemitsu B, S. Kato A, F. Kojima A, H. Onari B, S. Takata, Design Method of Material Handling Systems for Lean Automation Integrating Equipment for Reducing Wasted Waiting Time Journal Homepage: Http://Ees.Elsevier.Com/Cirp/Default.Asp.
  9. Workshop Technology Hazara Choudhary 211-268
  10. Electrical Machine Design- A.K. Sawhney 138,162
  11. Machine Design-R.S. Khurmi761,509,820- 884,996-1020
  12. Production Technolog- Banga And Sharma121,248
  13. En.M.Wikipedia.Org/Wiki/Material-Handeling_Equipment
  14. Engineland.Com/Altavista-Eulog-1653

International Journal of Scientific Research in Science, Engineering and Technology

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Published

2018-04-30

Issue

Volume 4, Issue 7, March-April-2018

Section

Research Articles

License

Copyright (c) IJSRSET

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
S. Kamble, H. Ukande, T. Savant, A. Haral, S. Pawar, " Material Handling Equipment, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 4, Issue 7, pp.224-228, March-April-2018.