Company Filing History:
Years Active: 2002
Title: Daljit Ohbi - Innovator in Automotive Engineering
Introduction
Daljit Ohbi is a notable inventor based in Luton, United Kingdom, recognized for his innovative contributions in the field of automotive engineering. With a focus on enhancing vehicle components, he has successfully secured a patent that addresses critical aspects of vehicle performance and durability.
Latest Patents
Daljit Ohbi holds a patent for a groundbreaking invention: the ball joint cover. This advanced ball joint is designed for vehicles and features a housing that partly encloses a ball member. The unique design incorporates a cover member made from an annular, partially everted body of steel. One end of the cover surrounds the housing, allowing for attachment, while the other end is in-turned to closely approach the spherical surface of the ball member, ensuring optimal performance and longevity. The design effectively prevents contaminants from affecting the housing seat by using an elastomeric sealing ring that is biased against the spherical surface.
Career Highlights
Daljit Ohbi is currently employed at Federal-Mogul Technology Limited, where he has been instrumental in driving innovation within automotive parts manufacturing. His expertise has been recognized through his patent, showcasing his commitment to enhancing vehicle safety and reliability.
Collaborations
Throughout his career, Daljit has collaborated with talented colleagues, including Gillian Lavery and Roger Jones. Their teamwork has facilitated the development of advanced automotive solutions, contributing to the overall success of their projects and furthering the field of innovative automotive technologies.
Conclusion
Daljit Ohbi's contributions to the automotive industry through his patented invention highlight his role as an influential inventor. With ongoing collaborations and a commitment to research and development, he continues to pave the way for future innovations within vehicle engineering, ensuring better performance and durability for automotive components.