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What is a cam?

A cam mechanism

A cam is a simple mechanism that converts rotary motion (movement that goes round in a circle) into linear motion (movement in a straight line).

These mechanisms can be found in car engines, printing machines and sewing machines.

A cam mechanism
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Video: Cam mechanisms

Join Sam in the workshop as he finds out about what cam mechanisms are and how they work.

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What is reciprocating motion?

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As the cam turns around over and over again, it changes the rotary motion of the cam into reciprocating movement.

Reciprocating motion means that the linear movement, in a straight line, is repeated again and again.

This movement could be forwards and backwards, up and down or side to side - as long as the movement is repeated and in a straight line.

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What are the parts of a cam mechanism?

The cam is the part of the mechanism that rotates. A crank can be used to turn the cam.

The outer edge of the cam is in contact with a follower. As the cam rotates, it pushes the follower.

The movement of the cam causes the follower to move in a direction that is different to that of the cam.

The follower is often supported by a slide which keeps it in position.

A cam mechanism. A crank handle (crank) is attached to a rod that turns round, known as the cam shaft. The camshaft goes through a wheel shaped cam, at a point that is not the centre. At the top a bar, the follower, rests on top of the cam.
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How do different cam mechanisms work?

Cams come in many different shapes and sizes. Here are three common types.

Pear cams

Pear cams are shaped like the fruit. When the cam turns, the top end of the pear cam pushes the follower up.

The follower falls and remains still when the bottom end of the pear cam makes contact with it. This makes an up and down movement with short pauses.

Pear cams can be found in fairground rides, sewing machines and printers.

A pear cam with the labels slide, follower and pear cam

Eccentric cams

Eccentric means 鈥榥ot in the centre鈥. So, eccentric cams rotate at a point that is not the centre of the cam.

This type of cam will make the follower move up and down.

If a circular cam had a rod through its exact centre the follower would not move up and down.

A diagram of an eccentric cam with the labels slide, follower and eccentric cam.

Snail cams

A snail cam has a spiral shape like the shell of a snail.

As it turns, the follower keeps still until it meets the top of the spiral. This pushes it up, before it drops down the flat edge of the snail shape.

Snail cams can be used to make an action happen at a regular time. For example, they can be used to make a clock sound a bell every hour.

A diagram of a snail cam with the labels slider, follower and snail cam
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Cam shapes

Cams can have many different shapes and each one will create a slightly different motion of the follower.

Take a look at some of these different cams and think about how they might make the follower move up and down.

An oval, elliptical, heart, hexagonal and star cams
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Key words

Cam mechanismA cam mechanism is a mechanical device that converts rotary motion into linear or reciprocating (back and forth) motion.
Rotary Rotary is where objects or components move in a circular path or spin around a central point.
Linear motion Linear motion refers to the movement of an object in a straight-line path.
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Quiz

Can you remember the names of some common cam types?

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More on Mechanical systems

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