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File:Nockenwelle ani.gif

Animation showing rotating cams and cam followers producing reciprocating motion.

A cam is a rotating or sliding piece in a mechanical linkage used especially in transforming rotary motion into linear motion or vice-versa.[1][2] It is often a part of a rotating wheel (e.g. an eccentric wheel) or shaft (e.g. a cylinder with an irregular shape) that strikes a lever at one or more points on its circular path. The cam can be a simple tooth, as is used to deliver pulses of power to a steam hammer, for example, or an eccentric disc or other shape that produces a smooth reciprocating (back and forth) motion in the follower, which is a lever making contact with the cam.

Overview[]

The cam can be seen as a device that translates from circular to reciprocating (or sometimes oscillating) motion. A common example is the camshaft of an automobile, which takes the rotary motion of the engine and translates it into the reciprocating motion necessary to operate the intake and exhaust valves of the cylinders.

The opposite operation, translation of reciprocating motion to circular motion, is done by a crank. An example is the crankshaft of a car, which takes the reciprocating motion of the pistons and translates it into the rotary motion necessary to operate the wheels.

Cams can also be viewed as information-storing and -transmitting devices. Examples are the cam-drums that direct the notes of a music box or the movements of a screw machine's various tools and chucks. The information stored and transmitted by the cam is the answer to the question, "What actions should happen, and when?" (Even an automotive camshaft essentially answers that question, although the music box cam is a still-better example in illustrating this concept.)

Certain cams can be characterized by their displacement diagrams, which reflect the changing position a roller follower would make as the cam rotates about an axis. These diagrams relate angular position to the radial displacement experienced at that position. Several key terms are relevant in such a construction of plate cams: base circle, prime circle (with radius equal to the sum of the follower radius and the base circle radius), pitch curve which is the radial curve traced out by applying the radial displacements away from the prime circle across all angles, and the lobe separation angle (LSA - the angle between two adjacent intake and exhaust cam lobes). Displacement diagrams are traditionally presented as graphs with non-negative values.

History[]

An early cam was built into Hellenistic water-driven automata from the 3rd century BC.[3] The use of cams in a camshaft was later employed by the Turkish inventor, Al-Jazari who employed them in his automata, water clocks (such as the castle clock) and water-raising machines.[4] The cam and camshaft appeared in European mechanisms from the 14th century.[5]

See also[]

  • Binary cam, for compound bows
  • Cam follower
  • Crank
  • Dwell cam
  • eccentric
  • Linkage (mechanical)
  • Spring-loaded camming device
  • Swashplate
  • Trip hammer
  • Piston

References[]

  1. Template:Cite web
  2. Pennock, G., Shigley, J., & Uicker, J. (2010). Cam Design. Theory of Machines and Mechanisms (4 ed.). Oxford University Press, USA.. p. 200. 
  3. Andrew Wilson: "Machines, Power and the Ancient Economy", Journal of Roman Studies, Vol. 92. (2002), pp. 1-32 (16)
  4. Georges Ifrah (2001). The Universal History of Computing: From the Abacus to the Quatum Computer, p. 171, Trans. E.F. Harding, John Wiley & Sons, Inc. (See [1])
  5. A. Lehr (1981), De Geschiedenis van het Astronomisch Kunstuurwerk, p. 227, Den Haag. (See [2])

External links[]

Template:Machine configurations Template:KinematicPair

ar:كامة cs:Vačka de:Nockenwelle es:Leva (mecánica) fa:بادامک fr:Came (mécanique) ko:캠 io:Kamo it:Camma la:gibber (mechanicus) hu:Vezérmű ja:カム (機械要素) pl:Krzywka (maszynoznawstwo) pt:Came (roda) ru:Кулачковый механизм sk:Vačka tr:Kam (mekanizma) zh:凸轮

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