[Transcriber's notes:
1) Peaucillier is a printers error and has been changed to Peaucellier.
2) The 4 characters at the end of the word 'Pafnuti[)i]' denote a letter 'i' with a breve accent.]
CONTRIBUTIONS FROM
THE MUSEUM OF HISTORY AND TECHNOLOGY
PAPER 27
KINEMATICS OF MECHANISMS FROM THE TIME OF WATT
_Eugene S. Ferguson_
JAMES WATT, KINEMATIC SYNTHESIST 187
TO DRAW A STRAIGHT LINE 199
SCHOLARS AND MACHINES 209
MECHANICIANS AND MECHANISMS 216
MECHANISMS IN AMERICA, 1875-1955 223
ADDITIONAL REFERENCES 229
KINEMATICS OF MECHANISMS FROM THE TIME OF WATT
_In an inventive tour de force that seldom, if ever, has been equalled for its brilliance and far-reaching consequences, James Watt radically altered the steam engine not only by adding a separate condenser but by creating a whole new family of linkages. His approach was largely empirical, as we use the word today._
_This study suggests that, despite the glamor of today's sophisticated methods of calculation, a highly developed intuitive sense, reinforced by a knowledge of the past, is still indispensable to the design of successful mechanisms._
THE AUTHOR: _Eugene S. Ferguson, formerly curator of mechanical and civil engineering in the United States National Museum, Smithsonian Institution, is now professor of mechanical engineering at Iowa State University of Science and Technology._
In engineering schools today, a student is introduced to the kinematics of mechanisms by means of a course of kinematic analysis, which is concerned with principles underlying the motions occurring in mechanisms. These principles are demonstrated by a study of mechanisms already in existence, such as the linkage of a retractable landing gear, computing mechanisms, mechanisms used in an automobile, and the like. A systematic, if not rigorous, approach to the design of gears and cams also is usually presented in such a course. Until recently, however, no serious attempt was made to apply the principles developed in kinematic analysis to the more complex problem of kinematic synthesis of linkages. By kinematic synthesis is meant the designing of a linkage to produce a given series of motions for a particular purpose.
That a rational--numerical or geometrical--approach to kinematic synthesis is possible is a relatively recent idea, not yet fully accepted; but it is this idea that is responsible for the intense scholarly interest in the kinematics of mechanisms that has occurred in this country within the last 10 years.
This scholarly activity has resulted in the rediscovery of many earlier works on the subject, and nearly all the scholars now working in this field have acknowledged in one way or another their debt to those who arrived on the scene at an earlier time than they. There have been occasional reviews of the sequence and nature of developments, but the emphasis naturally has been upon the recent past. It seems to me that there is something to be gained in looking beyond our own generation, or even beyond the time of Franz Reuleaux (1829-1905), who is generally credited with originating many of our modern concepts of mechanism analysis and design, and to inquire into the ideas that made possible Reuleaux's contributions.
Table of contents (by pages)
- 1: Kinematics of Mechanisms from the Time of Watt
- 2: When Agostino Ramelli published his book on machines
- 3: Le Diverse et Artificiose Machine
- 4: The rapid advancement of machine tools
- 5: Like the regular efflux of water in turning a waterwheel
- 6: This patent drew no fire from Wasbrough or Pickard
- 7: At this time a Boulton and Watt erector
- 8: One link becoming a member of the pantograph
- 9: Showing application of the Watt straight line linkage
- 10: John Farey was the writer of this article see Farey
- 11: Footnote 31 British Patent 2741
- 12: De Voglie and was actually used in 1756
- 13: Bottom Chebyshev Evans combination
- 14: Peaucellier exact straight line linkage
- 15: The perfect parallel motion of Peaucellier looks so simple
- 16: Through a compounding of Peaucellier mechanisms
- 17: Known as the Berlin kinematic models
- 18: Histoire de l'Ecole Polytechnique
- 19: Betancourt was born in 1760 in Teneriffe
- 20: Footnote 67 Gaspard Gustave de Coriolis
- 21: 71 Footnote 70 Robert Willis
- 22: In actually describing machinery
- 23: Franz Reuleaux und die Grundlagen seiner Kinematik
- 24: What is Wrong with Kinematics and Mechanisms
- 25: Reuleaux was first to state the concept of the pair
- 26: The image of link BACD is shown as figure bacd
- 27: From Phillipe Louis Lanz and Augustin de Betancourt
- 28: A translation of Lanz and Betancourt
- 29: This 1943 edition included photographs of kinematic models
- 30: As not to perceive to be a flywheel
- 31: Original Oldham coupling built before 1840
- 32: This linkage was invented by George Lankensperger
- 33: The actual practice of kinematic synthesis went on apace
- 34: Footnote 112 Peter Schwamb and Allyne L
- 35: Published in 1939 in Maschinenbau
- 36: Computing Mechanisms and Linkages
- 37: While we may talk about kinematic synthesis
- 38: Recent English views questioning the utility of kinematics
- 39: Kinematic Synthesis of Mechanisms