Design, Analysis and Fabrication of Load Carrier Bogie for Shop Floor Application
Venkatesh Suryawanshi1, Shubham Patil2, Mukeshsingh Kumpavat3, Prajakta Lad4, Jitendra Satpute5
1,2,3,4UG Students, Department of Mechanical Engineering, Suman Ramesh Tulsiani Technical Campus - Faculty of Engineering, Khamshet, Pune, Maharashtra
5Assistant Professor, Department of ME, Suman Ramesh Tulsiani Technical Campus - Faculty of Engineering, Khamshet, Pune, Maharashtra
Abstract: We are presenting paper on “Design and Fabrication of bogie to carry the load around shop floor” which is creating a bogie that will minimize the effort required to push or pull load on it. Motor is used in this system to help to push or pull load. A bogie system is the key equipment in industrial applications. To carry large weighted material without effort is important to avoid accidents, waste of material and time delay. Rigorous practical evaluation of bogies is still a challenge. Presently, there is overreliance on part-specific experiments in practice. In the present work, a risk evaluation index system of a bogie system has been established based on the inspection data and experts’ evaluation. Then, considering quantitative and qualitative aspects, the risk state of a bogie system has been evaluated using an extension theory and an entropy weight method.
We are still accustomed to the age-old industrial methods despite the rapid developments in this area. Numerous factors contribute to this, including inertia, rejection of new technology, and a lack of engineering aptitude, a lack of ability and technical knowledge, and most critically, concern over job possibilities being lost. The goal of this project is to create a mechanism that will make it simple to move large objects over flat surfaces with little effort. Our civilization has daily needs that call for such a system. On level ground, devices like hand bogies are used to decrease the strain of lifting, but the motorized hand bogies reduce user effort and eliminate stress. In light of this, the project aims to create a motorized hand cart that can transport heavy goods on a plane's surface with less effort than doing so by hand. The bogie in the current project has motorized wheels that make it easier to move the bogie on a surface and allow us to carry loads. The design and construction of an industrial bogie that can be used to transport luggage or other objects from one location to another are the topics of the current study. Depending on the need, a bogie has been built using CATIA V5 and is currently essential for moving various goods from one location to another in our daily lives or even at work.
Keywords: Cluster, Hybrid Motors, Belts