Company Filing History:
Years Active: 2011-2013
Title: The Innovative Contributions of Daisuke Okushita
Introduction
Daisuke Okushita, an accomplished inventor based in Kariya, Japan, has made significant strides in the field of electric motor technology. With a total of four patents to his name, Okushita demonstrates a strong commitment to advancing engineering solutions in the automotive industry.
Latest Patents
Okushita’s latest innovations focus on a stator coil production method. His patent details the creation of the stator coil used in electric motors, utilizing a plurality of shaping press pairs. The process encompasses a detailed sequence of operations where a conductor wire is transformed into in-slot portions, which fit into the slots of a stator core, and coil-end portions that extend from these slots. The method includes precise movements of the press pairs to ensure accurate shaping of the conductor wire. Another patent further advances this process, introducing a stator coil production machine that retains and manipulates these shaping press pairs along a looped path, adding efficiency to the manufacturing process of electric rotating machines.
Career Highlights
Currently, Daisuke Okushita is affiliated with Denso Corporation, a global leader in automotive technology. His work focuses on integrating innovative practices into conventional manufacturing methods, enhancing the performance and efficiency of electric drive systems.
Collaborations
Okushita collaborates closely with colleagues Yusuke Hara and Takao Takeuchi. Together, they contribute to the development of cutting-edge technologies that are shaping the future of electric vehicles and energy-efficient solutions.
Conclusion
Daisuke Okushita's inventive spirit and commitment to innovation solidify his role as a key player in the advancement of electric motor technology. Through his patents and collaborations, he not only propels his career forward but also contributes significantly to the automotive industry’s evolution, particularly in energy efficiency and production methodologies.