In this activity, kids experiment with an analogic drawing pad, to grasp the concept of a cnc machine moving along its x, y, and z axis.
The analogic pad has a pen mounted onto it that can move along the x and y axis of the pad.
Kids can attempt to draw simple geometrical shapes such as squares, rectangles, triangles, etc. on the analogic pad, and later observe a cnc machine (such as a 3D printer) that moves along its x, y, and z axis to create a 3D object. They will notice that the basic working principles of the two systems are very similar.
What follows is a step by step tutorial on how to build your own analogic drawing pad.
Une version française de ce tutoriel est disponible ici.
You will need to draw 10 pulleys in total. To draw the pulleys, just place them on the board and draw their contour.
Place de pulleys marked with “1” at 2cm from the sides of the board, and 5cm from the bottom of the board (the bottom of the board is the longest side).
Use 3 bolts in total for the small pulleys (the blue ones) and 5 bolts plus 2 washers for the big pulleys (the control pulleys -in red)
Watch this video to learn how
You can also watch this video if you struggle with the wiring.
Use a piece of cardboard to place two wooden skewers at 90° angles with respect to one another.
The skewers need to be long enough to reach the nylon wire on the top bottom left and right of the pad.
Alternatively, you can use straws to accomplish this step.
If you’ve assembled all parts in the correct way, both skewers should be able to move freely around the pad (along the x and y axis of the pad).
We now need to create a support for the pen. Use a piece of cardboard to create it, then glue it to the other piece of cardboard hosting the skewers.
This tutorial was produced as part of the FabEdu project, co-financed by the Erasmus + Programme of the European Union.
Project number: 2017-1-FR02-KA205-012767
The content of this publication does not reflect the official opinion of the European Union. Responsibility for the information and views expressed therein lies entirely with the author(s).