Company Filing History:
Years Active: 2004
Title: The Innovations of Ken Hajic
Introduction
Ken Hajic is an accomplished inventor based in Valencia, California. He is known for his significant contributions to the field of aerospace engineering, particularly in the design of supersonic aircraft. With a focus on reducing sonic booms, Hajic's work has the potential to revolutionize air travel.
Latest Patents
Hajic holds a patent for an innovative aircraft tail configuration aimed at sonic boom reduction. This patent describes a supersonic aircraft that features a wing with upper and lower surfaces extending from a leading edge to a trailing edge. The design includes at least two engine nacelles attached to the lower surface of the wing and an inverted V-tail that connects to the upper side of the wing. This configuration comprises a central vertical stabilizer and at least two inverted stabilizers, which support the engine nacelles. Additionally, the aircraft is equipped with ruddervators that are pivotally coupled to the inverted stabilizers. A controller is integrated into the design to adjust the aircraft's longitudinal lift distribution throughout its flight envelope, thereby maintaining a reduced sonic boom and drag trim condition.
Career Highlights
Ken Hajic is currently associated with Supersonic Aerospace International, LLC, where he continues to innovate in the aerospace sector. His work is characterized by a commitment to enhancing the efficiency and performance of supersonic aircraft.
Collaborations
Hajic has collaborated with notable professionals in the field, including Walter McRae Franklin III and John M Morgenstern. These partnerships have contributed to the advancement of his projects and the development of cutting-edge technologies in aviation.
Conclusion
Ken Hajic's contributions to aerospace engineering, particularly in the realm of supersonic flight, highlight his innovative spirit and dedication to reducing the environmental impact of air travel. His patent for an aircraft tail configuration exemplifies the potential for advancements in this field.