Company Filing History:
Years Active: 2001
Title: David Schroeder - Innovator in Portable Press Monitoring Technology
Introduction
David Schroeder is an accomplished inventor based in Flint, MI (US). He has made significant contributions to the field of mechanical engineering, particularly in the development of devices that enhance the functionality and efficiency of mechanical presses. His innovative spirit is exemplified by his patent for a portable press vibration severity monitoring system.
Latest Patents
David Schroeder holds a patent for a "Portable press vibration severity monitoring system and method." This invention is designed as a handheld device that can be attached to a mechanical press to measure its operational conditions. The device features signal processing circuitry that processes signals developed from an accelerometer. It includes acceleration processing circuitry for calculating a press acceleration signal, velocity processing circuitry for calculating a press velocity signal, and displacement processing circuitry for calculating a press displacement signal. Additionally, display circuitry is incorporated to show at least one of the calculated signals. A multi-contact switch connects the various processing circuits, allowing the operator to select which calculated signal to display. The patent also describes a method for utilizing the device effectively.
Career Highlights
David is currently employed at The Minster Machine Company, where he applies his expertise in mechanical engineering and innovation. His work focuses on improving the performance and reliability of mechanical presses through advanced monitoring technologies.
Collaborations
David has collaborated with notable colleagues, including Daniel A Schoch and Robert E Klein, who share his commitment to innovation in engineering.
Conclusion
David Schroeder's contributions to the field of mechanical engineering, particularly through his patented portable press vibration monitoring system, highlight his role as a significant innovator. His work continues to influence the efficiency and effectiveness of mechanical presses in various applications.