The mass production or large lots production of mechanical parts that actually evolves in materials and geometry, requests, at the same time, a reliable answer for complex tools solution and efficiency with economic operation.
Aim of the present work is the design and the carrying out of a chip removal tool that can work different surfaces in only one cut. A procedure is here described that, at the same time, would be efficient and coherent.
An actual tool has taken into consideration for having the cutting-edges position and the dynamic balancing constraints. In fact, such a tool has assigned to a transfer line where a part family, geometric similarity, was working.
A proposal of a procedure definition, not only limited to the specific problem solution, will give an approach methodology for the study of non-common tools, which makes sure an economic advantage both in their manufacture and in their operation management.
