Company Filing History:
Years Active: 2020-2022
Title: Innovations of William Ferry in Automated Machining
Introduction
William Ferry is an accomplished inventor based in Saint-Lambert, Canada. He has made significant contributions to the field of automated machining, particularly in the development of systems for creating toothed members. With a total of 2 patents to his name, Ferry's work exemplifies innovation and precision in manufacturing processes.
Latest Patents
Ferry's latest patents focus on a system and method for automated machining of toothed members. The first patent describes a method for machining a workpiece to create a toothed member with a desired tooth pattern. The process involves machining the workpiece to a first depth using a cutting tool, forming a semi-finished tooth pattern. This first depth is less than the full depth required for the final desired tooth pattern. The dimensions of the semi-finished tooth pattern are then acquired and compared to nominal dimensions. If the acquired dimensions fall outside the tolerance of the nominal dimensions, the geometry of the cutting tool is modified to correct any deviations. The workpiece is then further machined using the modified cutting tool. Once the dimensions are within tolerance, the workpiece is machined to the full depth to achieve the desired tooth pattern.
Career Highlights
William Ferry is currently employed at Pratt & Whitney Canada Corp, where he continues to innovate in the field of machining technology. His expertise in automated systems has positioned him as a key player in the industry, contributing to advancements that enhance manufacturing efficiency and accuracy.
Collaborations
Ferry has collaborated with notable coworkers, including Mario Blais and Yan Cousineau. Their combined efforts in research and development have led to significant improvements in machining processes.
Conclusion
William Ferry's contributions to automated machining reflect his dedication to innovation and excellence in engineering. His patents not only advance the field but also demonstrate the importance of precision in manufacturing.