Kazumi Koketsu

Title: Kazumi Koketsu: Innovator in Ingot Cutting Technology

Introduction

Kazumi Koketsu is a notable inventor based in Uji, Japan. He has made significant contributions to the field of ingot cutting technology, holding a total of 2 patents. His innovative designs focus on enhancing the efficiency and precision of ingot cutting processes.

Latest Patents

Koketsu's latest patents include an ingot cutting apparatus and a load detecting device used in the ingot cutting apparatus. The ingot cutting apparatus utilizes a plurality of stretched wires to cut the ingot. Load sensors are strategically placed on both the new wire side and the old wire side of the ingot. These sensors measure the loads applied to each side, allowing for precise control during the cutting process. When the deviation from the center of gravity of the ingot exceeds a reference value, the system notifies the operator for wire replacement and adjusts the conveying and pressing speeds accordingly.

Another significant invention is a tactile sensor and a gripping robot that employs this sensor to detect contact pressure. The tactile sensor features a disk-shaped first strain generating section and multiple strain generating sections that extend from it. This design enhances the sensor's ability to detect pressure accurately, making it a valuable tool in robotic applications.

Career Highlights

Kazumi Koketsu has worked with prominent companies, including Toshiba Electric Engineering Corporation and Doshisha University. His experience in these organizations has contributed to his expertise in engineering and innovation.

Collaborations

Koketsu has collaborated with notable individuals in his field, including Shiro Kurogi and Yoshiro Nojiri. These partnerships have fostered a creative environment that has led to the development of advanced technologies.

Conclusion

Kazumi Koketsu's contributions to ingot cutting technology and tactile sensing are noteworthy. His innovative patents reflect a commitment to improving industrial processes and robotics. His work continues to influence the field and inspire future innovations.