3D printed Scotch Yoke mechanism used for converting rotational motion into linear motion. Unlike traditional rotary to linear drive mechanisms, the connecting rod is rigidly fixed to the crank. Similarly, the piston is rigidly fixed to the con.rod.Piston dia 16 mm and stroke 16 mm.You can print most mechanisms using a 3d printer.These mechanisms are really cool.For example 3d printed geneva mechanism is a really great design.
This Creo Parametric tutorial shows how to create a Scotch Yoke mechanism for converting rotational motion to linear motion (or vice versa). I use a pin, a slider, and a cam connection. I create measures for position, velocity, and acceleration, as well as make a couple mistakes along the way - and show how to resolve them.
3D printed Scotch Yoke mechanism used for converting rotational motion into linear motion. Unlike traditional rotary to linear drive mechanisms, the connecting rod is rigidly fixed to the crank. Similarly, the piston is rigidly fixed to the con.rod.Piston dia 16 mm and stroke 16 mm.You can print most mechanisms using a 3d printer.These mechanisms are really cool.For example 3d printed geneva mechanism is a really great design.
This Creo Parametric tutorial shows how to create a Scotch Yoke mechanism for converting rotational motion to linear motion (or vice versa). I use a pin, a slider, and a cam connection. I create measures for position, velocity, and acceleration, as well as make a couple mistakes along the way - and show how to resolve them.
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