Although drilling seems to be a relatively simple process, it is actually a complicated and difficult process. Factors such as increasing the cutting temperature, increasing the cutting forces, trapping the chips in the hole, making the coolant difficult to pass increases the difficulty of this manufacturing process. In order to overcome these difficulties, it is important to determine the correct cutting tool and cutting parameters. Cutting tool design, although it requires experience and high cost is also an issue widely studied by researchers. The necessity of forming different drill geometries necessitates the use of a parametric modeling approach to the manufacturing process of tool designers. The parametric modeling approach allows for the re-derivation of geometries that are mathematically related to each other. In this study, drill designs commonly used in the industry are examined and a unique drill geometry based on manufacturing-oriented, parametric and mathematical equations is modeled.