Slider-Crank Mechanism-Inversion
- Title:
- Slider-Crank Mechanism-Inversion
- Title (German):
- Oscillierende Schubkurbel
- Collection:
- Reuleaux Kinematic Mechanisms Collection
- Set:
- D. Crank Mechanisms
- Designer:
- Reuleaux, F. (Franz), 1829-1905
- Manufacturer:
- Gustav Voigt Werkstatt
- Date:
- 1882
- Country:
- Germany
- Voigt Catalog Model:
- D4
- File Name:
- D04.jpg
- Work Type:
- Mechanical model
- Materials/Techniques:
- cast iron and brass on wood pedestal
- Subject:
- Kinematics of Machinery
- Measurement:
- 199 x 88 (millimeters, width x depth)
199 x 110 x 337 (millimeters, width x depth x height) - Description:
- The slider-crank mechanism is one of the most useful mechanisms in modern technology since it appears in most of the internal combustion engines including automobiles, trucks and small engines. Reuleaux designed many variations of the slider-crank models for the Voigt catalog including C-2, D-1-4, D-6. The eccentric mechanisms in models E-1-7 are also extensions of the slider-crank. The slider-crank kinematic chain consists of four bodies linked with three cylindrical joints and one sliding or prismatic joint. Four different mechanisms or inversions of this kinematic chain are possible depending on which body is grounded; the crank, connecting link, sliding link and slot link. In model D-4, the slot link is fixed. Besides application to engines and pumps the slider-crank is used in so-called “quick-return” mechanisms. [Francis Moon 2004-07-00]
The 220 models in Cornell University’s Reuleaux Collection were built in the late 19th century to demonstrate the elements of machine motion, as theorized by the German engineer Franz Reuleaux. The University acquired the models in 1882 for use in teaching and research. The Reuleaux models are classified according to the alphanumeric schema employed in the catalog of the manufacturer, Gustav Voigt. The letter in a model's ID (e.g., B14 or S35) refers to a class of mechanism; the number is a specific instance of the class. This classification scheme is a simplified version of the taxonomy of machine elements elaborated in Reuleaux's work. - Repository:
- Sibley School of Mechanical and Aerospace Engineering, Cornell University
- Format:
- Image
- Rights:
- Photography credit: Jon Reis (www.jonreis.com). Jon Reis Photography grants Cornell University Libraries and the Cornell College of Engineering the rights to display copyrighted images of the Reuleux collection of kinetic machines on the Cornell University and National Science Digital Library web sites and for unlimited use in Cornell University Library publications for education purposes only. Rights for all other uses, including but not limited to, editorial, commercial, advertising, web use and display by third parties not affiliated with Cornell University are reserved by the photographer. The written permission of any copyright and other rights holders is required for distribution, reproduction, or other use that extends beyond what is authorized by fair use and other statutory exemptions. Responsibility for making an independent legal assessment of an item and securing any necessary permissions ultimately rests with persons desiring to use the item. For questions about this item or other items please contact the Physical Sciences Librarians at pslref@cornell.edu.