Asmograf Pen Plotter
di cz7asm
File stampabili (16)
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stlpusher_pulley.stl
49 Ko · 15 541 download
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stlprinter_barrel_side.stl
635 Ko · 15 577 download
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stlprinter_carriage_side.stl
576 Ko · 15 517 download
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stlx_rider_TOFIT.stl
74 Ko · 15 503 download
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stlpusher_pulley_stopper.stl
19 Ko · 15 479 download
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stlpusher_arm.stl
92 Ko · 15 492 download
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stlpower_mount.stl
122 Ko · 15 461 download
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stlpen_mount.stl
245 Ko · 15 462 download
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stlpen_driver_TOFIT.stl
220 Ko · 15 454 download
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stllimit_switch_pad.stl
14 Ko · 15 420 download
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stlbelt_fix.stl
2 Ko · 15 420 download
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stlbase_rod_mount.stl
57 Ko · 15 396 download
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stlbase_circuitry.stl
27 Ko · 15 396 download
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stlmcu_mount.stl
44 Ko · 15 383 download
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stlbelt_mount.stl
9 Ko · 15 391 download
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stlmotor_shaft_coupler.stl
42 Ko · 15 381 download
Descrizione
Some time ago I got a bit nostalgic about a pen plotter from 80's called Alfigraf. It was produced in Czechoslovakia and based mainly on parts of a construction kit called Merkur (fun fact - first contact lenses were created using machine built from Merkur). Long story short, first I built the plotter using Merkur parts and then I decided to make a design for 3D printing so I could put the Merkur parts back to the box.
Short video with the plotter in action is here on youtube.
It turned out to be quite simple and compact design using only parts that are printable or they can be easily bought on ebay/aliexpress together with your local DIY shop for all the metal parts.
The steppers are NEMA17 (17HS2408) drived by TI DRV8825 and controlled by grbl running on ARM Cortex M3. The pen-up mechanism is using a 5V solenoid with a solenoid driver that is reducing its consumption by applying full voltage only for the pen hit and then dropping to 0.5V just to keep the pen up. I tried using a servo but somehow I had a better experience with a solenoid. Both solutions have their pros and cons...
As a Gcode controller I used STM32F3 based board that can be cheaply bought online and its dimensions fit nicely with the plotter design. Useful information about the board is here.
The Gcode controller firmware is a port of grbl made for this particular MCU. It's repository is here on github.
I used SolveSpace for designing as I don't know any other 3D modelling tool. I know that to some it may appear a bit cumbersome but I like its simplicity. I used version built from latest git repository and cannot guarantee that it's fully compatible with the prebuilt version available in their download section. So if anyone wants to play with my design or reuse it, the latest version of SolveSpace may be required.
The git repository with the model sources are here on github.