Company Filing History:
Years Active: 2003
Title: Robert P. Lapointe: Innovator in Breathing Apparatus Technology
Introduction
Robert P. Lapointe is a notable inventor based in Nepean, Canada, recognized for his contributions to respiratory technology. With a focus on enhancing the functionality and safety of breathing apparatuses, his work is vital in various fields, including health and safety, industrial applications, and personal protective equipment.
Latest Patents
Robert P. Lapointe holds a patent for an "Apparatus and method for breathing apparatus component coupling." This invention pertains to a fan-forced positive pressure breathing apparatus, commonly known as a Powered Air Purifying Respirator (PAPR) system. His patent specifically addresses the connection of breathing components related to such devices, introducing a method and apparatus for the rapid engagement of PAPR breathing components, such as air supply lines and filter elements to a blower housing. Additionally, his invention provides a solution for indicating and monitoring whether the components have been aligned and coupled in a sealed engagement, enhancing both the efficiency and safety of the equipment.
Career Highlights
Robert P. Lapointe is associated with 3M Innovative Properties Company, where he has leveraged his expertise to develop innovative products that improve user experience and safety. His single patent exemplifies his commitment to advancing technology in the field of respiratory protection.
Collaborations
Throughout his career, Robert has had the opportunity to collaborate with talented colleagues, including David Cook and Raymond Odell. Their collective efforts have contributed to successful innovations in the realm of breathing apparatus design and functionality.
Conclusion
Robert P. Lapointe's innovative work in breathing apparatus technology not only showcases his skill as an inventor but also underlines the importance of safety and efficiency in respiratory equipment. His contributions continue to influence the industry and pave the way for future advancements in protective breathing systems.