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Ch06a

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Ch06a

  1. 1. CHAPTER6 Cam Design THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  2. 2. Figure 6.1 Types of cams: (a) plate cam, (b) wedge cam, (c) barrel cam, and (d) face cam. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  3. 3. Figure 6.2 Plate cams with (a) an offset reciprocating knife-edge follower, (b) a reciprocating flatface follower, (c) an oscillating roller follower, and (d) an oscillating curved-shoe follower. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  4. 4. Figure 6.3 (a) Constant-breadth cam with a reciprocating flat-face follower. (b) Conjugate cams with an oscillating roller follower. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  5. 5. Figure 6.4 Displacement diagram for a cam. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  6. 6. Figure 6.5 Parabolic motion displacement diagram: (a) interfaces with uniform motion and (b) graphical construction. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  7. 7. Figure 6.6 Simple harmonic motion displacement diagram; graphical construction. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  8. 8. Figure 6.7 Cycloidal motion displacement diagram; graphical construction. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  9. 9. Figure 6.8 Cam nomenclature. The cam surface is developed by holding the cam stationary and rotating the follower from station 0 through stations 1, 2, 3, etc. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  10. 10. Figure 6.9 Graphical layout of a plate cam profile with an offset reciprocating roller follower. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.
  11. 11. Figure 6.10 Graphical layout of a plate cam profile with a reciprocating flat-face follower. THEORY OF MACHINES AND MECHANISMS John J. Uicker, Jr. / Gordon R. Pennock Joseph E. Shigley Copyright © 2011 by Oxford University Press, Inc.

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