Company Filing History:
Years Active: 2009-2010
Title: Innovations by Mark Edward Payne
Introduction
Mark Edward Payne is an accomplished inventor based in Port Byron, IL (US). He has made significant contributions to agricultural technology, particularly in the design of conveyor systems for feeder houses in combines. With a total of 2 patents, his work has improved the efficiency and functionality of agricultural machinery.
Latest Patents
One of Payne's latest patents is the "Conveyor chain support for feeder house." This invention features a pivoting mid-floor section that adjusts when a large volume of crop material is fed into the feeder house. This design reduces friction on the conveyor chain and prevents slowdowns that occur in systems with a fixed mid-floor. Additionally, replaceable wear-resistant surfaces can be affixed to the runners or guides of the mid-floor, extending wear life and further reducing friction.
Another notable patent is the "Conveyor feeder house chain slat." This innovative chain slat has a unique shape and structure that enhances structural rigidity, improving crop throughput while minimizing clogging. The design allows the chain to ride on the rear of the slat, reducing wear and overheating. The slats can also be secured to the chain with removable means, facilitating easier replacement when necessary.
Career Highlights
Mark Edward Payne is currently employed at Deere & Company, a leading manufacturer of agricultural machinery. His work at Deere has allowed him to apply his inventive skills to real-world challenges in the agricultural sector.
Collaborations
Throughout his career, Payne has collaborated with talented individuals such as Robert Lee Day and Ryan Patrick Mackin. These collaborations have contributed to the development of innovative solutions in agricultural technology.
Conclusion
Mark Edward Payne's contributions to agricultural machinery through his patents demonstrate his commitment to innovation and efficiency. His work continues to impact the industry positively, making farming processes more effective and reliable.