Company Filing History:
Years Active: 1993-1998
Title: Innovations of Timothy James Osgood
Introduction
Timothy James Osgood is a notable inventor based in Basingstoke, GB. He has made significant contributions to the field of technology with a total of two patents to his name. His work focuses on advancements in the processing of hard stones and shape sorting technologies.
Latest Patents
Osgood's latest patents include a method for working with natural or synthetic hard stones, such as gemstones. This invention involves a blocking head with a body and a mounting member that can move vertically. The rotary spindle is driven by a motor, and the mounting member is supported by a leaf spring. This design allows for a soft landing by applying an upward bias against gravitational force. The system measures the force on the stone using an LVDT and adjusts the working force accordingly through a microprocessor.
Another patent focuses on shape sorting technology. In this invention, objects are dropped through a viewing zone and analyzed by multiple viewers simultaneously. Each viewer generates electronic signals that represent three basic shape features: blockiness, symmetry, and convex hull deviance. The data collected is processed to provide a normalized shape parameter, which is then used to classify the objects based on their shape characteristics.
Career Highlights
Timothy Osgood is associated with Gersan Establishment, where he continues to innovate and develop new technologies. His work has contributed to advancements in both the gemstone processing industry and automated sorting systems.
Collaborations
Osgood has collaborated with notable individuals in his field, including Robert W. Ditchburn, who is now deceased, and Martin Philip Gouch. These collaborations have likely enriched his work and contributed to his innovative projects.
Conclusion
Timothy James Osgood's contributions to technology through his patents demonstrate his commitment to innovation. His work in gemstone processing and shape sorting showcases the potential for advancements in these fields.