Method of tool selection for milling of worm wheels with different modules and number of teeth

A review of modern methods of processing gear cavities in small-scale production, taking into account their advantages and limitations, is presented. The improvement of processing technologies and the introduction of automated production systems and computer-aided design systems significantly increases production efficiency, which reduces time and optimizes tool selection. Special attention is paid to the processing of worm wheel cavities, using computer-aided design and high-tech manufacturing systems. These technologies allow one to create models that not only improve production processes, but also help reduce the number of errors associated with manual processing. The results of the study indicate a clear relationship between the diameter of the cutting tool used and the processing time required for the various parameters of the worm wheel. This highlights the important role of tool selection in optimizing the production processes. Based on the collected data, a mathematical model was built to predict the processing time of worm wheel cavities on numerically controlled machines. The developed model is of interest for engineers and designers, as it allows one in advance to estimate the required mill diameter and processing time, which greatly facilitates the planning of the production process.