Company Filing History:
Years Active: 2000-2001
Title: Scott A. Crowner: Innovator in Barrier Operator Systems
Introduction
Scott A. Crowner is a notable inventor based in Lynnwood, WA (US), recognized for his contributions to the field of barrier operator systems. With a total of two patents to his name, Crowner has made significant advancements in the technology that facilitates the movement of barriers such as gates and doors.
Latest Patents
Crowner's latest patent focuses on a barrier operator system that utilizes a motive source to move a movable barrier. This system includes a station with a drive system that is operatively coupled to the motive source's movable member. The design features first and second flexible members, which are connected to the movable barrier and the output drive system member. The system is designed to include various aspects such as the use of cables or wires for the flexible members, a spool as the output drive system member, and a gear box that is operatively coupled to the spool. The motive member is a 3-phase alternating current electric motor, which operates on voltage levels below 65 volts root mean square. Additional features of the patent include automatic positioning of the movable barrier, calibration of its fully opened and closed positions, and the ability to supply 0 hertz electrical power for heating based on temperature thresholds.
Career Highlights
Scott A. Crowner is currently employed at Hy-Security Gate, Inc., where he continues to innovate and develop advanced barrier operator systems. His work has contributed to enhancing the efficiency and functionality of barrier systems in various applications.
Collaborations
Throughout his career, Crowner has collaborated with notable colleagues such as Brian G. DeNault and Gerald N. O'Berto, contributing to the development of innovative solutions in the field.
Conclusion
Scott A. Crowner's work in barrier operator systems exemplifies the impact of innovation in enhancing everyday technology. His patents reflect a commitment to improving the functionality and efficiency of barrier systems, making significant strides in the industry.