Company Filing History:
Years Active: 2003-2004
Title: Hiroshi Ogata: Innovating Electronic Component Mounting
Introduction
Hiroshi Ogata is a prominent inventor based in Kofu, Japan, known for his contributions to the field of electronic component mounting. With a total of two patents to his name, Ogata has significantly advanced the efficiency of electronic assembly processes.
Latest Patents
Ogata's latest innovations include an 'Electronic Component Mounting Method' and an 'Electronic Component Mounting Apparatus Using Duplicate Sources of Components.' Both patents describe a sophisticated system featuring two or more parts feeding sections. Each section is equipped with identical combinations of parts cassettes aligned in the same arrangement. This innovative approach allows the mounting head to seamlessly switch to an alternate feeding section if one or more types of components are exhausted. As a result, the mounting operation can continue without interruption for replenishment, optimizing the overall productivity of the apparatus.
Career Highlights
Hiroshi Ogata is affiliated with Matsushita Electric Industrial Co., Ltd., where he has played a crucial role in enhancing manufacturing processes through his inventive solutions. His patents reflect a deep understanding of the challenges faced in electronic component assembly and a commitment to providing practical solutions.
Collaborations
Ogata has worked alongside talented colleagues such as Naoto Mimura and Hirofumi Obara. Their collaboration has fostered an environment of innovation at Matsushita Electric, where they collectively strive to advance technology in the electronics industry.
Conclusion
Hiroshi Ogata's contributions to electronic component mounting are a testament to his ingenuity and dedication to improving manufacturing processes. His patents not only reflect his capabilities as an inventor but also underscore the collaborative spirit of innovation within Matsushita Electric Industrial Co., Ltd. As technologies continue to evolve, Ogata's work will likely inspire future advancements in the field.