Company Filing History:
Years Active: 2025
Title: Matthias Haisch: Innovator in Aircraft Ice Protection Systems
Introduction
Matthias Haisch is a notable inventor based in Seefeld, Germany. He has made significant contributions to the field of aviation, particularly in the development of ice protection systems for aircraft. His innovative approach addresses a critical safety concern in aviation, ensuring that aircraft can operate effectively in icy conditions.
Latest Patents
Haisch holds a patent for an airfoil of an aircraft equipped with an ice protection system. This patent, which is titled "Airfoil of an aircraft, aircraft with an ice protection system and method of ice protecting the airfoil," describes a sophisticated mechanism for applying and recovering ice protection fluid along the leading edge of the airfoil. The system includes a first applying mechanism for the fluid and a recovering mechanism positioned downstream of the leading edge. Additionally, it features a second applying mechanism that utilizes the recovered fluid to protect areas of the airfoil further downstream. This innovative design enhances the safety and performance of aircraft in icy conditions.
Career Highlights
Matthias Haisch is currently associated with Lilium Eaircraft GmbH, a company focused on developing advanced air mobility solutions. His work at Lilium emphasizes the importance of safety and efficiency in modern aviation. Haisch's expertise in ice protection systems is a testament to his commitment to improving aircraft technology.
Collaborations
Haisch collaborates with Ayaz Janjua Zaid, contributing to the advancement of innovative solutions in the aviation sector. Their partnership reflects a shared vision for enhancing aircraft safety and performance.
Conclusion
Matthias Haisch is a pioneering inventor whose work in aircraft ice protection systems is making a significant impact on aviation safety. His innovative patent and collaboration with industry professionals highlight his dedication to advancing technology in this critical field.