Design and Analysis of a Remotely Operated Mini Forklift Bot

This work is concerned with the design, analysis and programming of a scaled down version of an electric forklift robot. An advantageous consequence of this device is the development of space saving storage units that allow for efficient packing of lighter goods into areas that while not built for human movement, allow ample space for movement of our forkliftt bot. This is especially important in cases where each cubic meter of the storage unit is valuable, for example, refrigerated goods storage units. Each part of the robot was either carefully selected or designed from scratch in the pursuit of maximizing the load bearing capacity to design-weight ratio. As such, structural analysis was conducted for each part using the Ansys Workbench simulation package. Furthermore, motors that were operated using standard electronic circuits were installed to remotely control the traversal of the bot, while cameras and sensors were employed to monitor its surroundings and movements. The next step was to program the logic circuit and link the various components wired to it. Here the main control device used was an Arduino, which is an integrated open-source electronic platform that allows for precision control of the various electronic components in accordance with the operator’s inputs. The hardware used for passing instructions to the Arduino was a common smart phone on which a self-developed android app was installed. Writing a program for this involves careful calibration of the power and position of the driving components and the electric signals they receive