: Improving the quality of manufacturing, while reducing the costs has an impressive effect on the manufacturers' ability to compete in today's super-competitive market. Flexibility, variability and versatility of the manufacturing line is of vital importance for the manufacturer's survival in the field of competition, regarding the wide scope of target markets and quick changes in the needs and desires of the customers. Utilizing the flexible manufacturing systems has had a fairly good effect to solve the mentioned challenges and impressively improved the manufacturing performance. A group project titled as Designing and Fabrication of a Flexible Laboratory System following the mentioned concerns was proposed and fulfilled in the Isfahan University of Technology. The present thesis focuses on the design and fabrication of a parts feeder unit as a module of the big project. To meet this goal, a high level of variability is considered in the Vibratory Bowl Feeder (VBF) to have the option of altering its structure in case the need arises for studying the effects of different factors on the functionality of the system. Some options like the ability to alter the amplitude of vibrations are available in a typical VBF system. But considering the laboratory orientation of the system, apart from the ability to alter the vibrational amplitude, the user could also alter the spring angle and stiffness, so as to study their effect on the function of the set, thanks to the new design. Keywords: Automation - Flexible Manufacturing Systems - Parts Feeder – Vibratory Bowl Feeders – Screw Feeder – Gravitational Magazine Feeder