Company Filing History:
Years Active: 1981-1989
Title: Kenji Sakuma: Innovator in Measuring Technology
Introduction
Kenji Sakuma is a notable inventor based in Kawasaki, Japan. He has made significant contributions to the field of measuring technology, particularly in the development of devices that enhance the accuracy and efficiency of measurements. With a total of 2 patents to his name, Sakuma's work reflects a commitment to innovation and precision.
Latest Patents
One of Sakuma's latest patents is a levelling device for a roughness measuring machine. This invention includes a mechanism for searching the tilt angle of the center locus of a measured value relative to a baseline. It features a device for setting a tolerable tilt angle and a comparator that determines whether the tilt angle falls within acceptable limits. If the tilt angle is found to be outside the tolerable range, a position change device is activated to adjust the object's position, thereby preventing scale-out. Another significant patent is a contour measuring apparatus designed to measure the contour of an object. This device consists of a measuring arm with two centers of gravity and a fulcrum positioned between them, ensuring that all three points align in a straight line for accurate measurements.
Career Highlights
Throughout his career, Kenji Sakuma has worked with prominent companies such as Mti GmbH and Mitutoyo Corporation. His experience in these organizations has allowed him to refine his skills and contribute to advancements in measuring technology.
Collaborations
Sakuma has collaborated with talented individuals in his field, including Hironori Noguchi and Chihiro Marumo. These partnerships have fostered innovation and have led to the development of cutting-edge measuring devices.
Conclusion
Kenji Sakuma's contributions to measuring technology through his patents and collaborations highlight his role as an influential inventor. His work continues to impact the industry, showcasing the importance of innovation in enhancing measurement accuracy and efficiency.