Company Filing History:
Years Active: 2016-2020
Title: Hiroki Otoshi: Innovator in Weighing Technology
Introduction
Hiroki Otoshi is a notable inventor based in Ritto, Japan. He has made significant contributions to the field of weighing technology, holding 2 patents that showcase his innovative approach to improving weighing apparatuses.
Latest Patents
Otoshi's latest patents include a combination weighing apparatus that controls the rotation speed of a dispersion table. This invention features a dispersion table designed to rotate an article supplied from outside around a central axis and convey it away from that axis. The apparatus includes an acquisition unit to obtain the mass value of the article and a control unit that adjusts the rotation speed based on this mass value. Specifically, the control unit sets the rotation speed to a first speed for lighter articles and a slower second speed for heavier articles.
Another significant patent is a vibrating conical distributing table for a combination weighing apparatus. This invention consists of a distributing table with a conical vibrating surface and a rotary stirrer that stirs articles supplied from the table to multiple supply troughs. The design includes a stirring arm and a leading end stirring plate that operates within a gap, enhancing the efficiency of the weighing process.
Career Highlights
Hiroki Otoshi is currently employed at Ishida Co. Limited, a company renowned for its advancements in weighing and packaging technology. His work at Ishida has allowed him to develop innovative solutions that address the challenges faced in the industry.
Collaborations
Otoshi collaborates with Hideshi Miyamoto, a fellow innovator in the field. Their partnership has contributed to the development of cutting-edge technologies in weighing systems.
Conclusion
Hiroki Otoshi's contributions to weighing technology through his patents and work at Ishida Co. Limited highlight his role as a key innovator in the industry. His inventions continue to influence the efficiency and accuracy of weighing processes.