Location History:
- Peoria, IL (US) (1997)
- Columbia, MO (US) (2011)
Company Filing History:
Years Active: 1997-2011
Title: Innovations by Timothy C. Moritz
Introduction
Timothy C. Moritz, an accomplished inventor located in Columbia, MO, holds three patents that showcase his contributions to the field of injection molding technology. His work, particularly in the development of tools and systems for hot runner applications, demonstrates a commitment to enhancing manufacturing efficiency and effectiveness.
Latest Patents
Moritz's latest innovations include two notable patents:
1. **Repair Tool for Injection Molding Hot Runner System** - This patent describes a tool and method designed to facilitate access to a hot runner system in injection molding. It features a first plate structure with multiple nozzle acceptance openings that engage the injection nozzles and a second plate structure arranged in opposition to the first. Elongate spacers connect the two, allowing for improved accessibility and maintenance.
2. **Modular Injection Molding Hot Runner System** - This invention focuses on a hot runner system of modular construction that allows rapid removal and replacement during maintenance. The design includes hot runner modules that are easily mounted to a support surface and are equipped with injection nozzles for efficient fluid communication with molten material.
Career Highlights
Timothy C. Moritz is currently employed at Caterpillar Inc., a leading company in heavy equipment manufacturing. His role there allows him to apply his inventive skills to real-world applications and contribute to advancements in manufacturing processes.
Collaborations
Within Caterpillar Inc., Moritz collaborates with other talented engineers and inventors, including Glen R. Kloeppel and Claudio A. Grubicy. Their combined expertise fosters an innovative atmosphere that leads to the development of cutting-edge solutions in the industry.
Conclusion
Timothy C. Moritz exemplifies the spirit of innovation through his patents and contributions to injection molding technology. His work not only facilitates more efficient manufacturing processes but also highlights the importance of collaboration in driving technological advancements.