871225: Potential Applications of the Stiller-Smith Mechanism in internal Combustion Engine Designs - Technical Paper

Event: 4th International Pacific Conference on Automotive Engineering

Authors

West Virginia University

West Virginia University

West Virginia University

Randolph Churchill

West Virginia University

West Virginia University

Abstract

Content: With few exceptions most internal combustion engines use a slider-crank mechanism to convert reciprocating piston motion into a usable rotational output. One such exception is the Stiller-Smith Mechanism which utilizes a kinematic inversion of a Scotch yoke called an elliptic trammel. The device uses rigid connecting rods and a floating/eccentric gear train for motion conversion and force transmission.

The mechanism exhibits advantages over the slider-crank for application in internal combustion engines in areas such as balancing, size, thermal efficiency, and low heat rejection. An overview of potential advantages of an engine utilizing the Stiller-Smith Mechanism is presented.

Meta Tags

Topics: Internal combustion engines
Connecting rods
Combustion and combustion processes
Transmissions
Pistons

Affiliated or Co-Author: West Virginia University

Details

Pages: 8

Citation: Smith, J., Clark, N., Stiller, A., Churchill, R. et al., "Potential Applications of the Stiller-Smith Mechanism in internal Combustion Engine Designs," SAE Technical Paper 871225, 1987, .

Additional Details

Publisher: SAE Australasia

Published: Nov 8, 1987

Product Code: 871225

Content Type: Technical Paper

Language: English