Company Filing History:
Years Active: 2014-2020
Title: Innovations by YeonSeok Choo in Battery Technology
Introduction
YeonSeok Choo is a prominent inventor based in Daejeon, South Korea. He has made significant contributions to the field of battery technology, holding a total of eight patents. His work focuses on enhancing the structural stability of battery modules, which is crucial for the performance and safety of energy storage systems.
Latest Patents
One of YeonSeok Choo's latest patents is a battery module designed for excellent structural stability. This innovative module features a base plate on which secondary batteries or unit modules are stacked vertically. The design includes a pair of end plates that are in contact with the outer sides of the batteries, with their bottoms fixed to the base plate. Supporting bars connect the opposite sides of the end plates, providing additional stability. The base plate is equipped with upward protrusions that extend longitudinally to prevent deformation from vertical vibrations and to disperse pressure effectively. Another patent further refines this concept, detailing a battery module that includes a main body contacting the unit modules, with a top wall, bottom wall, and side walls that increase in thickness from top to bottom, thereby dispersing bending loads.
Career Highlights
YeonSeok Choo is currently employed at LG Chem, Ltd., a leading company in the chemical and battery manufacturing industry. His work at LG Chem has positioned him as a key player in the development of advanced battery technologies, contributing to the company's reputation for innovation and quality.
Collaborations
YeonSeok Choo collaborates with talented coworkers, including Jin Kyu Lee and Ye Hoon Im. Their combined expertise fosters a creative environment that drives the development of cutting-edge battery solutions.
Conclusion
YeonSeok Choo's contributions to battery technology exemplify the importance of innovation in energy storage solutions. His patents reflect a commitment to enhancing the safety and efficiency of battery modules, making a significant impact in the field.