Company Filing History:
Years Active: 2015
Title: **Innovator Spotlight: Trevor J. Kupstas and His Contributions to Concrete Crushing**
Introduction
Trevor J. Kupstas, a dedicated inventor based in Frenchtown, NJ, has made significant strides in the field of construction equipment through his innovative approach to concrete crushing technology. With a patent to his name, Trevor has shown his capability as a forward-thinking engineer, contributing valuable solutions to the industry.
Latest Patents
Trevor J. Kupstas holds a patent for a novel concrete crusher that incorporates a gyratory design. This innovative crusher features a bowl shaped like a cone, which has a wider opening at the top. The crusher includes an inner shell backed by a concrete outer shell, enhancing durability and efficiency. The head assembly, centrally located within the bowl, possesses a mainshaft situated on an inclined axis. The cylindrical eccentric assembly allows for the mainshaft to gyrate as it rotates, improving the crushing process. Additionally, the patent outlines methods for making or retrofitting such devices, providing versatility in existing crushing machinery.
Career Highlights
Trevor currently works at FLSmidth A/S, a company recognized for its contributions to cement and minerals industries. His tenure at FLSmidth has been marked by a commitment to innovation and the development of effective solutions for concrete processing.
Collaborations
As part of a collaborative team, Trevor works alongside talented colleagues such as Mark Solomon and K. Chris Littleford. Together, they strive to advance technologies that enhance the capabilities of construction machinery and improve operational efficiency.
Conclusion
In summary, Trevor J. Kupstas stands out as a notable inventor within the concrete crushing sector. His patent for a gyratory crusher showcases his inventive spirit and dedication to improving construction technologies. With continued collaboration and innovation at FLSmidth A/S, Trevor is poised to make further contributions that could shape the future of concrete processing and construction equipment.