A piezoelectric driven ratchet actuator mechanism with application to automotive engine valves |
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| Affiliation: | 1. Key Laboratory of Urban Rail Transit Intelligent Operation and Maintenance Technology & Equipment of Zhejiang Province, Zhejiang Normal University, Zhejiang 321005, China;2. Institute of Precision Machinery and Smart Structure, College of Engineering, Zhejiang Normal University, Zhejiang 321005, China;3. Research Center for Micro-Nano Device and System, Zhejiang Normal University-CUSTech Institute of Technology, Jinhua, Zhejiang 321005, China;4. School of Mechanical and Electrical Engineering and Transportation, Shaoxing Vocational and Technical College, Shaoxing 312000, China |
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| Abstract: | Increasing demands on the performance of internal combustion engines, specifically automobile engines, require the production of more mechanical energy for a given amount of chemical fuel with reduced tailpipe emissions. Of particular interest in the development of high performance/low emission engines is the control and timing of individual engine valves. This paper investigates the design of an innovative piezoelectric ceramic (PZT) based actuator mechanism with a novel stepping motion amplifier to deliver force and displacement at higher magnitudes and operating frequencies. The target application is an engine valve train which traditionally uses cam-based lifter driven rocker arms to regulate the cylinders’ intake and exhaust valve motion. The proposed PZT-based actuator mechanism introduces a high frequency, lightweight, precise position solution for cylinder-by-cylinder variable valve timing. Numerical results are provided to demonstrate the feasibility of a PZT-based/camless valve train. The new valve train demonstrates similar cam-based performance characteristics while enabling computer controlled individual valve timing opportunities. |
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