Mechanisms — indexing cam

Recent Blogs

Triangular Eccentric diagram
Triangular Eccentric Cam Mechanism: How It Works, Diagram, Formula & Uses Explained
The Triangular Eccentric converts rotary motion into intermittent reciprocating output. See how it works, where it's used, and how to size one for your build.
Continuous Rotary to Intermittent via Cam and Disk diagram
Continuous Rotary to Intermittent via Cam and Disk: How It Works, Parts, Formula and Uses
Cam and disk intermittent motion converts continuous rotation into precise stop-and-go indexing for packaging, printing, and assembly machines. See the math and design rules.
Internal Multiple Cam diagram
Internal Multiple Cam Mechanism: How It Works, Parts, Diagram, and Uses in Indexing and Packaging
Internal Multiple Cam mechanism explained — how stacked internal cam grooves drive multi-axis follower timing in packaging, textile, and assembly machines.
Four-bolt Cam diagram
Four-bolt Cam Mechanism Explained: How It Works, Parts, Timing Formula and Industrial Uses
Four-bolt Cam explained — how this adjustable timing cam controls valve and indexing motion in engines, presses, and packaging machines, with sizing math.
Clover-leaf Cam diagram
Clover-leaf Cam Mechanism: How a Four-Lobe Cam Works, Parts, Formula and Uses
Clover-leaf cams convert rotary input into a four-pulse reciprocating output. See how engineers use them in textile, packaging and automation machinery.