4 Bar | Link Calculator

Breaking into (x) and (y) components for a given crank angle (\theta_2):

[ K_1 \cos\theta_4 + K_2 \cos\theta_2 + K_3 = \cos(\theta_2 - \theta_4) ] 4 bar link calculator

Given link lengths and crank angle, output the angles of the coupler and follower, plus the coupler point position. Breaking into (x) and (y) components for a

Differentiating the loop equations yields angular velocities using the known input angular velocity. 4 bar link calculator

The angle between the coupler and follower—critical for force transmission. Values near (90^\circ) are ideal; below (40^\circ) or above (140^\circ) cause poor mechanical advantage.