Company Filing History:
Years Active: 1993
Title: Inventor Jerry W Mueckl and His Innovations in Engine Analysis
Introduction
Jerry W Mueckl is an innovative inventor based in Franklin, Wisconsin, known for his contributions to engine technology. He has secured a patent that provides significant advancements in analyzing the performance of multi-cylinder internal combustion engines.
Latest Patents
Mueckl's notable patent describes a method and apparatus designed for determining the relative contributions of linearly moving external parts on multi-cylinder internal combustion engines. The invention utilizes a hand-held rotary encoder, a contact tachometer with a hollow handle containing processing circuitry. This circuitry converts the rotary encoder output into a waveform signal, which, in conjunction with a signal responsive to the firing of the first cylinder, informs an engine analyzer processor. This setup allows for a visual representation of a single engine cycle of the waveform signal on a CRT oscilloscope. The variation in amplitude of this waveform serves to indicate speed variations of the moving part throughout an engine cycle, ultimately revealing the relative power contributions of individual engine cylinders.
Career Highlights
Mueckl's career is marked by his affiliation with Snap-on Tools Corporation, a leading innovator in tool manufacturing. Through his work, he has contributed to advancing diagnostic capabilities in the automotive industry, strengthening the ability of technicians to analyze engine performance accurately.
Collaborations
Throughout his career, Jerry W Mueckl has collaborated with skilled professionals such as Robert D Braun and Matthew M Crass. Together, their combined expertise has fostered an environment of creativity and innovation at Snap-on Tools Corporation, leading to enhanced engineering solutions.
Conclusion
Jerry W Mueckl's inventive spirit and technical acumen have made a significant impact on the automotive field, particularly in engine analysis technology. His patented methods continue to aid in the understanding of engine performance, showcasing the importance of innovation in enhancing industrial applications.