Company Filing History:
Years Active: 2007-2008
Title: Michael Liebler: Innovator in Gas Sensor Technology
Introduction
Michael Liebler is a notable inventor based in Leonberg, Germany. He has made significant contributions to the field of gas sensor technology, holding a total of 2 patents. His work focuses on developing advanced methods for detecting gas concentrations and physical properties of measuring gases.
Latest Patents
Liebler's latest patents include a gas sensor and a method for its production. The gas sensor is designed to determine a physical property of a measuring gas, such as the concentration of a gas component or the temperature of exhaust gases. This innovative sensor features a sensor element housed in a metal casing, which is sealed with a sealing element in a metal receptacle. The design ensures that the sensor element is centered along its longitudinal extension, providing accurate measurements.
Another significant patent involves a detecting element for determining the concentration of a gas component in a measuring gas. This gas sensor includes a sensor element that is exposed to the measuring gas and has a connecting end section contacted by connecting cables. The end section is protected by a sleeve with a gas-permeable diaphragm, which prevents liquid penetration that could cause malfunctions. The clamping sleeve is designed to compress the diaphragm effectively, ensuring reliable operation.
Career Highlights
Michael Liebler is associated with Robert Bosch GmbH, a leading company in the field of engineering and technology. His work at Bosch has allowed him to contribute to innovative solutions in gas sensing technology.
Collaborations
Liebler has collaborated with notable colleagues, including Helmut Weyl and Bernhard Wild. Their combined expertise has further advanced the development of gas sensor technologies.
Conclusion
Michael Liebler's contributions to gas sensor technology exemplify his innovative spirit and dedication to advancing measurement techniques. His patents reflect a commitment to enhancing the accuracy and reliability of gas detection methods.