Recent Blogs
Spherical Four-bar Linkage Mechanism Explained: How It Works, Parts, Diagram and Uses
Spherical four-bar linkage explained: how concurrent-axis kinematics transmit motion between angled shafts in robotics, aerospace and automotive steering.
Schatz Linkage Mechanism: How the Six-Bar Spatial Inversion Works, Parts, Diagram and Uses
The Schatz Linkage is a 6-bar spatial mechanism that traces a closed inversion path. Learn how it works, where it's used in mixing and robotics,...
Goldberg 5R Linkage Mechanism: How It Works, Bennett-Based Geometry, Parts and Deployable Uses Explained
Goldberg 5R linkage explained — how this overconstrained spatial mechanism folds, the math behind it, and where it appears in deployable aerospace structures.
Sarrus Linkage Mechanism: How It Works, Parts, Formula, Diagram and Uses Explained
Sarrus Linkage explained — the spatial straight-line mechanism behind deployable solar arrays, scissor lifts, and folding optics. With formula and worked example.
Spatial RSSR Linkage Mechanism: How It Works, Parts, Diagram and Uses Explained
The Spatial RSSR Linkage transfers rotation between non-parallel shafts using two ball joints. See how it works, the formula, and real industrial examples.
Bricard 6R Linkage Mechanism Explained: How the Overconstrained 6R Loop Works, Parts, and Uses
The Bricard 6R Linkage is an overconstrained spatial loop that moves with one degree of freedom. See geometry rules, deployable-structure uses, and a worked example.
Bennett's Linkage Mechanism Explained: How It Works, Geometry, Formula, Uses & Animation
Bennett's Linkage explained: the only 4-bar spatial linkage that actually moves. Geometry rules, deployable structure uses, and worked design numbers.