Kohei Sakiyama

Title: Kohei Sakiyama: Innovator in Ultrasonic Flow Measurement Technology

Introduction

Kohei Sakiyama is a prominent inventor based in Tokyo, Japan. He has made significant contributions to the field of ultrasonic flow measurement technology. With a total of 3 patents to his name, Sakiyama's work has advanced the methods used in manufacturing measurement pipeline portions of ultrasonic flow meters.

Latest Patents

Sakiyama's latest patents include a method for manufacturing the measurement pipeline portion of an ultrasonic flow meter. This innovative process involves disposing a soft-melted parison in molds that form the shape of the measurement pipeline. The parison is then expanded using gas inflow, followed by blow molding. The design includes an inner mold that shapes the pipe body, fluid inlet, and fluid outlet portions. Additionally, ultrasonic wave input-output portions are formed on both sides of the pipe body, allowing for effective attachment of ultrasonic wave transmission-reception units. Another notable patent is the clamp-type ultrasonic flow measuring apparatus, which features a mounter for press-tight fitting of the transmission/reception unit to the measuring pipe. This design ensures smooth transmission of ultrasonic beams between the pipe body and the transmitting/receiving element.

Career Highlights

Sakiyama has established himself as a key figure in his field through his innovative designs and patents. His work at Ryusok Co., Ltd. has allowed him to focus on developing advanced technologies that enhance the accuracy and efficiency of ultrasonic flow measurement.

Collaborations

Sakiyama collaborates with Eiichi Murakami, contributing to the development of cutting-edge technologies in their field. Their partnership has led to significant advancements in ultrasonic measurement techniques.

Conclusion

Kohei Sakiyama's contributions to ultrasonic flow measurement technology demonstrate his innovative spirit and dedication to advancing engineering practices. His patents reflect a commitment to improving measurement accuracy and efficiency in various applications.