Company Filing History:
Years Active: 2013
Title: **Avinesh Ojha: Innovating Force Conversion Mechanisms**
Introduction
Avinesh Ojha, an inventive mind based in Urbana, IL, has made significant contributions to the field of mechanical engineering with his innovative designs. He holds a patent for a unique apparatus that enhances user interaction with force mechanisms, showcasing his creativity and engineering prowess.
Latest Patents
Ojha's notable patent, titled "User-selectable force conversion apparatus and method," introduces a groundbreaking solution for customizable force responses. The apparatus features a first and second connecting member pivotally connected, which interact with a sliding and fixed member. Importantly, it includes a leaf spring holder designed to retain multiple leaf springs, allowing users to modify the apparatus's force response. By altering the combination of leaf springs or adjusting the length ratio of the connecting members, users can achieve a tailored mechanical input, enhancing the apparatus's functionality significantly.
Career Highlights
Avinesh Ojha is affiliated with Brigham Young University, where he has likely collaborated on various research projects that require innovative mechanical solutions. His academic environment plays a crucial role in fostering his inventive capabilities and providing a platform for his creations.
Collaborations
Ojha has collaborated with notable individuals in his field, including Landen A Bowen and Larry L Howell. These partnerships are indicative of a dynamic work environment, where shared knowledge and expertise drive innovative developments in mechanical engineering and beyond.
Conclusion
Avinesh Ojha stands out as a noteworthy inventor in the realm of mechanical innovations. His patent demonstrates a clear understanding of user needs and technical intricacies, supporting the evolution of customizable apparatuses. As he continues to work at Brigham Young University, it is expected that Ojha will make further strides in the field of engineering, contributing to future innovations that may reshape how users interact with mechanical systems.