Company Filing History:
Years Active: 1977-1985
Title: Innovations of James C. Hobson
Introduction
James C. Hobson is an accomplished inventor based in St. Clair Shores, MI (US). He holds a total of three patents, showcasing his expertise in engineering and design. His work primarily focuses on mechanisms that enhance the functionality and efficiency of weapon systems.
Latest Patents
One of Hobson's notable inventions is the rack and pinion weapon elevation mechanism. This innovative design features a three rack and double pinion system that is particularly useful for positioning and balancing weapons, such as cannons, on combat vehicles. The mechanism includes two hydraulically-actuated gear racks that are positioned in facing relation with a main pinion. The main pinion is integral with a shaft that connects to an output pinion. As the main pinion rotates, it causes the output pinion to rotate identically. This rotation is crucial for the elevation or depression of the weapon, as the two racks slide past the main pinion. Additionally, a third hydraulically-actuated rack exerts an elevating torque on the output pinion, counteracting the weight of the weapon. This design incorporates a hydraulic accumulator arrangement that pressurizes the third rack based on the weapon's position, effectively balancing the weapon on the combat vehicle.
Career Highlights
Throughout his career, Hobson has worked with several notable companies, including Ex-Cell-O GmbH and Cadillac Gage Company. His experience in these organizations has contributed to his development as an inventor and has provided him with valuable insights into the engineering field.
Collaborations
Hobson has collaborated with various professionals in his field, including his coworker Arthur John Wroble. These collaborations have likely enriched his work and led to further innovations.
Conclusion
James C. Hobson's contributions to the field of weapon systems through his innovative patents demonstrate his significant impact as an inventor. His work continues to influence the design and functionality of combat vehicle mechanisms.