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Neopixel Vase

3D printed vase using transparent 3D printer filament as light guide and Neopixel LEDs for illumination.

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This is my first project using transparent 3D printing filament as a light guide.

Project video:

STL files are available on prusaprinters

DemoReel100.ino

FastLed Example Pin2

ino - 3.51 kB - 11/03/2020 at 04:32

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  • 1 × 16 pixel Neopixel ring Adafruit
  • 1 × Trinket M0 Adafruit
  • 1 × Transparent 2.85 mm PETG filament

  • 3D Filament as light guide

    makeTVee11/03/2020 at 04:50 1 comment

    That's my first test of using standard transparent 3D filament as a light guide for addressable LEDs. First results with 1.75 mm filament were not satisfying, because the LED opening of standard WS2812 (Neopixel) LEDs is around 3 mm and not all light is coupled into the filament.

    So the next test was using 2.85 mm filament, which worked much better. I tested PETG and PLA and both are working fine, but PETG is more transparent and depending on the project, you want to have more diffusion (PLA) for short traces or longer light guiding (PETG). For this vase I used PETG.

    The filament pieces end up in the black base, were the LED ring is integrated and controlled by a tiny Arduino board.

    A standard 16 pixel Neopixel ring was used and the vase was designed according to its pattern:

View project log

  • 1
    3D Design and printing

    The vase design was inspired by: https://cults3d.com/en/3d-model/home/filament-vase

    Instead of normal colored filament, transparent filament is used and illuminated by a hidden Neopixel LED ring in the base of the vase. The vase was designed in Fusion 360.

    Base design:

    The vase is printed in vase mode, the channels for the filament are clearly visible:

  • 2
    Light guide

    As light guide standard 2.85 mm transparent PETG filament is used. This diameter fits better to the Neopixel LED opening than 1.75 mm filament.

    Because the filament is rolled, is has a preformed circle shape, so it's not easy to snap into the vase. Therefore, the filament pieces were preheated at 90°C in an oven and formed by a custom 3D printed mold. STL file for the mold is also at prusaprinters.

    The mold follows the vase shape, so it is much easier to snap in the filament after forming. Originally it was planned to heat up the filament in the mold (and the screws should prevent the mold from deforming), but this did not work as good as expected. So preheating and forming in the cold mold works perfect.

  • 3
    Assembly

    The filament pieces are slid in from the bottom to the top of the vase. They are snapping into the vase without the need of any glue.

    After all filaments are put in, the ends were cut off with a side cutter.

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Discussions

Dan Maloney wrote 11/04/2020 at 17:22 point

That's really interesting, I wouldn't have thought filament would act like such a good light pipe. Did you do anything to the surface of the filament to make it a better diffuser?

  Are you sure? yes | no

makeTVee wrote 11/04/2020 at 17:55 point

Thanks! No, just used it directly from the spool. It works very well, only local bending reduces the effect. So the longer the light pipe should be, the less bending is possible. 

  Are you sure? yes | no

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