Company Filing History:
Years Active: 1986
Title: Gerhard Raubinger: Innovator in Optical Technology
Introduction
Gerhard Raubinger is a notable inventor based in Heidelberg, Germany. He has made significant contributions to the field of optical technology, particularly with his innovative approach to enhancing the functionality of optical and optoelectronic sighting devices. His work has implications for various applications, including military and recreational optics.
Latest Patents
Gerhard Raubinger holds a patent for a "Method and apparatus for the turning on and off of a signal in optical." This invention provides a method and apparatus for changing the operational state of an optical or optoelectronic sighting device from the READY state to an operational state and vice versa. The unique feature of this invention is that the change in the state of the device is effected automatically, allowing the user to keep their hands free for other immediate tasks. The apparatus includes an eyepiece, a deformable eye rest, shutter means, transmitter means, receiver means, reflecting means, and switch means. In the READY state, only the components that require a longer start-up time are energized. When the user presses their head against the deformable eye rest, the device transitions to its operational state, enhancing usability and efficiency.
Career Highlights
Gerhard Raubinger has been associated with Eltro GmbH, where he has contributed to the development of advanced optical technologies. His work has been instrumental in creating devices that improve user experience and operational efficiency in various applications.
Collaborations
Gerhard has collaborated with notable colleagues, including Heinrich Karning and Wolfgang Weigel. Their combined expertise has fostered innovation and development within the company.
Conclusion
Gerhard Raubinger's contributions to optical technology exemplify the importance of innovation in enhancing user experience. His patented methods and apparatus demonstrate a commitment to improving functionality in optical devices.