Company Filing History:
Years Active: 1991
Title: The Innovative Spirit of Michael E. Hinsey
Introduction
Michael E. Hinsey, an inventor based in Parker, Texas, has made significant contributions to the field of material reduction with his innovative designs. With a patent to his name, he showcases the spirit of creativity and engineering excellence.
Latest Patents
Hinsey holds a patent for a "Method and apparatus to reduce material." This invention pertains to a unique shredder featuring a single rotating shaft equipped with both large and small diameter blades arranged in a side-by-side configuration along its length. These blades work in conjunction with fixed shear bars mounted on both sides of the shredder. Notably, this shredder operates effectively in both forward and reverse directions, powered by a hydraulic motor. The hydraulic motor is equipped with control circuitry that detects overload conditions in either direction; when an overload is detected, the shredder automatically reverses its operation, effectively clearing any jammed conditions. During normal operation, the shredder cycles in one direction for a predetermined period, stops, and then runs in the opposite direction for the same amount of time.
Career Highlights
Michael E. Hinsey is associated with Mac LLC, where he continues to push the boundaries of innovation in material handling equipment. His work not only emphasizes practical applications but also incorporates advanced technology to enhance functionality and efficiency.
Collaborations
One of Hinsey's notable coworkers at Mac LLC is Avon E. Bathe. Their collaboration represents a fusion of innovative ideas and expertise, contributing to the advancement of their projects and patent developments.
Conclusion
Michael E. Hinsey exemplifies the role of an inventor in today's rapidly evolving technological landscape. His patented invention demonstrates how innovative thinking can lead to practical solutions that significantly impact various industries. As he continues his work at Mac LLC, his contributions will undoubtedly inspire future innovations in material reduction techniques.