Company Filing History:
Years Active: 2025
Title: The Innovative Mind of Paige S Ahearn
Introduction
Paige S Ahearn is a notable inventor based in Dayton, OH (US). She has made significant contributions to the field of technology, particularly with her innovative approach to braking systems. Her work exemplifies the intersection of creativity and engineering, showcasing her ability to solve complex problems through inventive solutions.
Latest Patents
One of Paige's most recent patents is for a "Magnetic braking system for descending payloads." This invention presents systems and methods for controlling the descent of a payload against gravity. The magnetic braking system allows users to descend along a structure, such as a rope, hands-free. The design incorporates a plurality of conductive bands made from non-ferromagnetic material affixed to the exterior of the descending structure. The payload is connected via a lanyard with a collar that attaches circumferentially to the structure. This collar features magnetic assemblies arranged as a linear Halbach array. As the collar moves past the conductors, eddy currents are generated within the conductive bands, creating a repelling magnetic field that provides a braking force, effectively slowing the descent of the payload. Paige holds 1 patent for this innovative technology.
Career Highlights
Paige is currently employed at Applied Research Associates, Inc., where she continues to develop her ideas and contribute to various projects. Her work at this organization highlights her commitment to advancing technology and improving safety in payload descent systems.
Collaborations
Throughout her career, Paige has collaborated with talented individuals such as Hirsch M Chizever and Michael B Miller. These partnerships have allowed her to enhance her inventions and bring innovative solutions to fruition.
Conclusion
Paige S Ahearn is a remarkable inventor whose work in magnetic braking systems demonstrates her ingenuity and dedication to technological advancement. Her contributions are paving the way for safer and more efficient methods of payload descent.