Company Filing History:
Years Active: 2017-2022
Title: Shoutarou Sekiguchi: Innovator in Molding Technology
Introduction
Shoutarou Sekiguchi is a notable inventor based in Yamanashi, Japan. He has made significant contributions to the field of molding technology, holding three patents that enhance the efficiency and performance of molding machines. His work focuses on improving material supply and transport performance while reducing costs.
Latest Patents
One of Sekiguchi's latest patents is a heated cylinder for resin melting in molding machines. This invention aims to provide a heated cylinder that realizes high material supply and transport performance, cost reduction, and improved maintenance. The design features a resin charging port with a circular shape in the upper section and a square or oblong shape in the lower section, ensuring smooth transitions between the sections.
Another significant patent is an injection device that offers high convenience through flexible layout options for storage units and peripheral equipment. This device includes a hopper for storing molding material, an injection cylinder unit for heating and melting the material, and a supply unit with a changeable supply direction. This innovative design allows for greater adaptability in the manufacturing process.
Career Highlights
Shoutarou Sekiguchi is currently employed at Fanuc Corporation, a leading company in automation and robotics. His work at Fanuc has allowed him to apply his inventive skills to real-world applications, contributing to advancements in molding technology.
Collaborations
Sekiguchi collaborates with Hiroyasu Asaoka, a fellow innovator in the field. Their partnership has fostered a creative environment that encourages the development of new technologies and solutions in molding processes.
Conclusion
Shoutarou Sekiguchi's contributions to molding technology through his patents and work at Fanuc Corporation highlight his role as an influential inventor. His innovative designs continue to shape the future of manufacturing processes.