The bulk of industries employ stationary conveyors, hoists, small industrial vehicles, and cranes. In most industries throughout the world, such as the power, chemical, and petroleum sectors, to mention a few, the belt conveyor is the most often utilized conveying system. The conveyance system uses cutting-edge technology to eliminate labor-intensive tasks performed by people, gain efficiency, and lower the risk of industrial accidents. Conveyor belts are most frequently used in businesses where goods must be transported over large distances; under these circumstances, they play a critical role in satisfying demand. The belt is the most fundamentally crucial component of a belt conveyor since it is the only component that moves throughout the whole system. Even though they are efficient at transporting items from one place to another, these conveyors are not ideal for all applications. Getting a conveyor to where it is needed is exceedingly difficult. However, moving them necessitates the use of a conveyor system that is fixed in one location, which is more unclear to use and difficult to arrange, impacting every element of the industry. Mine sites such as those for limestone, coal, and basalt are available in a variety of geographical locations. A new method of handling materials must be developed, together with rigorous investigation and analysis for efficient exploitation, to prevent such accidents. The objective of this project is to develop a conveyor system for small enterprises that is lightweight, inexpensive to create, and accident-prone. The belt width, motor choice, belt size, shaft diameter, bearing type, and specification of a swiveling belt conveyor system are all covered in this paper. In order to research and provide the operational factors that can determine the quantifiable performance of conveyors, standard model calculation was employed. Siemens-NX CAD software was used to conduct the simulation, and the results show that the chosen design parameters produced the perfect operating speed with a reduced operation time. The study was conducted using Ansys software, which produced the best outcomes. The total fabrication aiding the industry was faultless and was effectively used in actual situations, producing the expected outcomes.