Screw Jack Mechanism for Reducing Effort


Authors : Nitin Borse, Atharva Chaudhari; Vadiraj Tadas; Sandesh Atole; Swaraj Ghune; Ayush Kirte

Volume/Issue : Volume 9 - 2024, Issue 4 - April

Google Scholar : https://tinyurl.com/y5v3wc5z

Scribd : https://tinyurl.com/vhr57ath

DOI : https://doi.org/10.38124/ijisrt/IJISRT24APR1756

Abstract : This report delineates the design parameters for a mechanical screw jack engineered to hoist a 300kg load. Emphasizing structural robustness, operational efficiency, and user safety as primary objectives, the design framework integrates various considerations. A sturdy framework, constructed from high- strength materials, forms the backbone of the design, engineered to endure the imposed load. Critical components, notably the threaded screw and supporting structure, undergo meticulous analysis to ascertain their load-bearing capacity, with safety margins incorporated to avert structural failure. To enhance operational efficiency, the design meticulously selects materials and geometries to minimize frictional losses and optimize mechanical advantage. Furthermore, the screw jack integrates a mechanical locking mechanism to secure the lifted load, preventing inadvertent descent. Safety features are integral, encompassing overload protection mechanisms to forestall exceeding the rated capacity and a user-friendly control system to facilitate straightforward operation. Moreover, ergonomic considerations are factored in to ensure user comfort and operational ease. In summary, this abstract encapsulates the core principles of a mechanical screw jack engineered to handle a 300kg load, prioritizing structural integrity, operational efficiency, and user safety in its design ethos.+

Keywords : Screwjack, Pitch, Worm, Worm Gear, Mild Steel.

References :

  1. Gyawali, A. (2022). Modeling & Structural Analysis of Screw Jack. Jain University.
  2. Ezurike, B., & Okwu, M. (2017). Modified Screw Jack for Lifting Operation in Industrial Setting. In International Journal of Engineering and Technologies (Vol. 13, pp. 39–50). AOA Academic Open Access Ltd. https://doi.org/10.56431/p-58afax
  3. M. Atif, F. Mumtaz and M. Adeel, "Design and fabrication of a motorized screw jack," 6th Smart Cities Symposium (SCS 2022), Hybrid Conference, Bahrain, 2022, pp. 114-119, doi: 10.1049/icp.2023.0358.
  4. Srivastav, P. K., Pandey, V. K., Maurya, S. K., Tiwari, A., Rafiq, J., & Dwivedi, S. K. (2013). Highly Efficient Motorized Screw Jack. International Journal of Computational Engineering Research, 3(5), 35-41.
  5. https://en.wikipedia.org/wiki/Jackscrew

This report delineates the design parameters for a mechanical screw jack engineered to hoist a 300kg load. Emphasizing structural robustness, operational efficiency, and user safety as primary objectives, the design framework integrates various considerations. A sturdy framework, constructed from high- strength materials, forms the backbone of the design, engineered to endure the imposed load. Critical components, notably the threaded screw and supporting structure, undergo meticulous analysis to ascertain their load-bearing capacity, with safety margins incorporated to avert structural failure. To enhance operational efficiency, the design meticulously selects materials and geometries to minimize frictional losses and optimize mechanical advantage. Furthermore, the screw jack integrates a mechanical locking mechanism to secure the lifted load, preventing inadvertent descent. Safety features are integral, encompassing overload protection mechanisms to forestall exceeding the rated capacity and a user-friendly control system to facilitate straightforward operation. Moreover, ergonomic considerations are factored in to ensure user comfort and operational ease. In summary, this abstract encapsulates the core principles of a mechanical screw jack engineered to handle a 300kg load, prioritizing structural integrity, operational efficiency, and user safety in its design ethos.+

Keywords : Screwjack, Pitch, Worm, Worm Gear, Mild Steel.

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