Company Filing History:
Years Active: 2017-2025
Title: Jyrki Nissinen: Innovator in Hydraulic Percussion Technology
Introduction
Jyrki Nissinen is a notable inventor based in Tampere, Finland. He has made significant contributions to the field of hydraulic percussion devices, holding a total of 3 patents. His work focuses on improving the efficiency and functionality of rock-breaking machinery.
Latest Patents
Nissinen's latest patents include innovative designs and methods for hydraulic percussion devices. One of his patents, titled "Percussion device and method for controlling the same," describes a hydraulic percussion device that features a reciprocating piston. This invention includes a control unit that generates signals for independently operable feed and discharge valves within a hydraulic system. The position of the piston is monitored by a sensing device, enhancing the precision of the operation. Another significant patent is the "Breaking hammer and method of supporting percussion piston." This design features a hydraulic breaking hammer with a reciprocating piston supported by two easily mountable piston bearing elements. The second bearing element includes a collar sealing element that faces the working collar of the piston, ensuring effective operation.
Career Highlights
Jyrki Nissinen is currently employed at Sandvik Mining and Construction Oy, a company known for its advanced mining and construction solutions. His role involves the development and enhancement of hydraulic systems used in various applications, particularly in rock breaking technologies.
Collaborations
Throughout his career, Nissinen has collaborated with talented professionals such as Mika Oksman and Juhani Laine. These collaborations have contributed to the advancement of hydraulic technology and the successful implementation of innovative solutions in the industry.
Conclusion
Jyrki Nissinen's contributions to hydraulic percussion technology have established him as a key figure in the field. His patents reflect a commitment to innovation and efficiency in rock-breaking machinery.