Design of the Electric Load Carrying Platform

Abstract

The electric load carrying platform is an essential tool for material handling applications, designed to reduce the physical strain and risk of injury associated with moving heavy loads. This thesis focuses on the design principles and techniques for electric load carrying platforms, with the goal of improving their functionality, usability, and safety. Through an literature review and case studies, this thesis explores various design aspects of load carrying platforms, such as material selection, structural design, and wheel configuration. Furthermore, the thesis investigates the use of advanced technologies in electric load carrying platform design, such as automation, sensing systems, and IoT integration. The thesis evaluates the benefits and limitations of these technologies, highlighting their potential to enhance the performance, reliability, and safety of load carrying platforms. By providing a comprehensive analysis of the design considerations and strategies for electric load carrying platforms, this thesis aims to contribute to the ongoing efforts to improve material handling practices and reduce the risk of work-related injuries. The thesis concludes by identifying areas for future research and development in electric load carrying platform design, with the goal of advancing the field and creating safer, more efficient material handling solutions.