Cartesian Plotter
von AndrewSleigh
Druckbare Dateien (8)
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stlPen_grip_-_lower.stl
109 Ko · 5 245 Downloads
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stl
Bottom_gantry.stl
528 Ko · 5 201 Downloads
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stl
Y_axis_lifter.stl
234 Ko · 5 164 Downloads
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stl
Top_gantry.stl
324 Ko · 5 163 Downloads
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stl
Y_axis_other_end.stl
264 Ko · 5 157 Downloads
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stl
Y_axis_cap.stl
291 Ko · 5 168 Downloads
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stl
X_axis_motor_end.stl
335 Ko · 5 175 Downloads
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stl
X_axis_other_end.stl
191 Ko · 5 153 Downloads
Beschreibung
Note 2020-03-04: there is a newer version of this project with many improvements here: https://www.thingiverse.com/thing:4037180
Please also check the full project write-up at: http://andrewsleigh.com/plotter/
This version builds on what I learned with my previous plotter. Most obviously, it uses a traditional 'cartesian' design, where movement in the y-axis is provided by a motorized arm, while the drawing surface stays still. This has the benefit of much greater accuracy. It also means that yopu can, in theory, draw on any flat surface.
However the drawbacks are that:
- It needs much more space. With about 50 cm of travel in each axis, it needs a space that big to store, and 1 m x 50 cm to operate.
- The long arm (with steel rods in my case) is heavy, so it tends to dip towards the end of its reach. This can cause problems getting the right pen height or pressure. To alleviate this, my design has bolt-down points on the x-axis. By bolting this axis to a piece of plywood, the frame is much stiffer.
Some other features worth noting:
I'm using small sections of kite poles to hold the two parts of the pen lifter assembly together. I found 0.1 mm of extra clearance on one part was enough to allow smooth running without wobble.
- In an idea I lifted from Evil Mad Scientist's AxiDraw, I'm using thin strips of flexible plastic (polypropylene I think) to support the wires to the servo and y-axis stepper.