Company Filing History:
2 out of 778 
1 out of 272 
Years Active: 2017-2020
Title: Yuki Murota: Innovator in Tactile Sensor Technology
Introduction
Yuki Murota is a prominent inventor based in Kanagawa, Japan. She has made significant contributions to the field of tactile sensor technology, holding 2 patents that showcase her innovative approach to sensor design.
Latest Patents
Murota's latest patents include a cover structure of a tactile sensor and a tactile sensor itself. The first patent aims to provide a cover structure that ensures sufficient adhesion between the sensor body and the covering layer without the need for an adhesive layer. This design minimizes the risk of detection errors caused by the covering layer. The structure consists of a sensor body and a covering layer made of an elastic material, which is integrally molded with the sensor body. The covering layer features at least two layers: an outer layer and an inner layer that has higher adhesiveness and lower hardness than the outer layer.
The second patent focuses on a covering material and structure for a robot gripping unit. This invention aims to enhance gripping performance for various objects. The covering material is designed to grip objects effectively, featuring an inner layer made of an elastic body with tackiness and a lower hardness than the outer layer. The outer layer includes penetrating portions that allow the inner layer to adapt to the stress applied during gripping.
Career Highlights
Throughout her career, Murota has worked with notable companies such as Nok Corporation and Nippon Mektron Limited. Her experience in these organizations has contributed to her expertise in tactile sensor technology.
Collaborations
Murota has collaborated with talented individuals in her field, including Takeshi Yamada and Hiroshi Umebayashi. These collaborations have further enriched her work and innovations.
Conclusion
Yuki Murota is a trailblazer in tactile sensor technology, with her patents reflecting her commitment to innovation and excellence. Her contributions continue to influence the development of advanced sensor systems.