Company Filing History:
Years Active: 1987
Title: Jurg Ischi - Innovator in Circuit Breaker Technology
Introduction
Jurg Ischi is a notable inventor based in Wiler, Switzerland. He has made significant contributions to the field of electrical engineering, particularly in the development of circuit breaker technologies. With a total of 2 patents, Ischi's work focuses on enhancing the efficiency and compactness of electrical switching devices.
Latest Patents
One of Ischi's latest inventions is the gas-blast circuit breaker. This device is designed for switching medium-high voltages and features two arcing contacts and two rated-current contacts housed in an insulating gas-filled environment. The innovative design allows for a compact construction while minimizing the driving energy required for the switching process. The moving rated-current contact is rotatably supported, and the drive mechanism employs two rods pivoted at a driving crank, ensuring efficient operation during the disconnecting process.
Another significant patent is the compressed gas switch, which is intended for switching medium voltages. This switch is characterized by a casing filled with insulating gas and two contacts positioned along an axis within the casing. The design allows for a small installation length and reduced contact consumption. Current supply links are led out of the casing in a manner that optimizes the flow of electricity, enhancing the switch's performance.
Career Highlights
Jurg Ischi is associated with BBC Brown, Boveri & Company, Limited, where he has contributed to various innovative projects. His expertise in circuit breaker technology has positioned him as a key figure in the advancement of electrical engineering solutions.
Collaborations
Ischi collaborates with fellow inventor Andreas Plessl, working together to push the boundaries of electrical device innovation.
Conclusion
Jurg Ischi's contributions to circuit breaker technology exemplify his commitment to innovation in electrical engineering. His patents reflect a deep understanding of the complexities involved in creating efficient and compact electrical devices.