Company Filing History:
Years Active: 2018
Title: Koichi Imada: Innovator in Scroll Compressor Technology
Introduction
Koichi Imada is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of compressor technology, particularly with his innovative designs that enhance reliability and efficiency.
Latest Patents
Imada holds a patent for a scroll compressor, which aims to suppress degradation of reliability by supporting a flange portion of a crankshaft with a bearing. This invention allows for the downsizing of the scroll compressor by reducing the size of the flange portion of the crankshaft. The scroll compressor consists of a fixed scroll attached to a frame, an orbiting scroll that creates a compression chamber through orbital motion, and an electric motor that drives the orbiting scroll via the crankshaft. Additionally, a bearing part is provided below the flange portion of the crankshaft to rotatably support the main shaft part. A thrust stopper is also included, which contacts both the flange portion and the bearing part, ensuring stability and reliability in operation. Imada's patent is a testament to his innovative approach in the field, with a total of 1 patent to his name.
Career Highlights
Throughout his career, Koichi Imada has worked with prominent companies in the air conditioning technology sector. He has been associated with Johnson Controls-Hitachi Air Conditioning Technology (Hong Kong) Limited and Hitachi-Johnson Controls Air Conditioning, Inc. His experience in these organizations has contributed to his expertise in compressor technology.
Collaborations
Imada has collaborated with notable colleagues such as Yoshihiro Fukaya and Takeshi Tsuchiya. Their combined efforts in the field have led to advancements in air conditioning technology and compressor design.
Conclusion
Koichi Imada's contributions to the development of scroll compressors highlight his innovative spirit and dedication to enhancing technology in the air conditioning industry. His work continues to influence the field and improve the reliability of compressor systems.