gazzaladra

Mushroom lamp “Amanita Muscaria”

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gazzaladra
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TwirlygrlandMom
TwirlygrlandMom
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Image 24 of 37
Mushroom lamp “Amanita Muscaria” - Used a tricolor silk on the cap and a uv-color change for the off-white features. Ended up using a battery operated puck for the light.  - 3d model
TwirlygrlandMom
TwirlygrlandMom
|
|
Image 24 of 37
Mushroom lamp “Amanita Muscaria” - Used a tricolor silk on the cap and a uv-color change for the off-white features. Ended up using a battery operated puck for the light.  - 3d model
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Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” - Used a tricolor silk on the cap and a uv-color change for the off-white features. Ended up using a battery operated puck for the light.  - 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” - I absolutely adore this little lamp. It's very simple to assemble and the parts are very easy to obtain. I can't recommend it enough. - 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” - Everyone loves these.  - 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” - Just in time for Halloween, I had some requests to make a purple and green Amanita and here it is! I love how it turned out and the nice green glow really pulls the spooky! - 3d model
Mushroom lamp “Amanita Muscaria” 3d model
Mushroom lamp “Amanita Muscaria” - Beautiful! - 3d model
Mushroom lamp “Amanita Muscaria” 3d model
This model is restricted by licensing terms. 

One of the world’s most famous mushrooms embodied in a naturalistic lamp design.

Versions included (check the images for cross sections with measurements)

  • A: For LED puck cabinet lights like the Bambulab LED lamp kit 001. Size assembled: 150 x 150 x 200 mm
  • B: For E14 (EU) sockets kits like the Ikea strala that come with a screw-on attachment ring. Size assembled: 195 x 195 x 260 mm
  • C: For E12 (US) sockets kits that come with a spring load clip. Size assembled: 195 x 195 x 260 mm
  • D: For E12 (US) sockets kits like the Ikea strala that come with a screw-on attachment ring. The only difference to version B is one measurement inside the stem to accommodate the shorter thread length of US products. Size assembled: 195 x 195 x 260 mm

The version B, C and D are bigger (130%) than the version A and have a different light emission. While the version A has a translucent stem the others emit most of the light through the open grooves and white spots.

Instructions A

  • Check the provided images for measurements.
  • Get a LED puck cabinet light like the Bambulab LED lamp kit 001
  • Print the cap in a non-translucent filament, preferably red.
  • Print the Stem, 21 Insert_A and 25 Insert_B in a light-colored or transparent filament, preferably white. The areas where the light shines through are 1.6 thick. You can print a test piece of this horizontal thickness to evaluate the translucency of your filament by holding the light behind the print.
  • Print the holder.
  • Glue the holder into the cap.
  • Attach the lamp with the double-sided tape (from the lamp kit) to the holder.
  • Funnel the wire through the stem.
  • Click the Stem into the Cap.
  • Enjoy your new lamp!

Instructions B

  • Check the provided images for measurements.
  • Get a lamp socket kit and a matching round LED bulb.
  • Print the cap and stem in a non-translucent filament.
  • Print the ring if your set does not come with one that fits into the stem
  • Print 21 Insert_A and 25 Insert_B in a light-colored or transparent filament, preferably white.
  • Insert the Socket (without bulb) from below through the stem.
  • Screw on the Ring from above to secure the socket.
  • Insert the bulb.
  • Click the Stem into the Cap.
  • Enjoy your new lamp!

Instructions C

  • Check the provided images for measurements.
  • Get a lamp socket kit and a matching round LED bulb.
  • Print the cap and stem in a non-translucent filament.
  • Print 21 Insert_A and 25 Insert_B in a light-colored or transparent filament, preferably white.
  • Insert the Socket (without bulb) from below through the stem.
  • Insert the bulb.
  • Click the Stem into the Cap.
  • Enjoy your new lamp!

Instructions D

  • Check the provided images for measurements.
  • Get a lamp socket kit and a matching round LED bulb.
  • Print the cap and stem in a non-translucent filament.
  • Print the ring if your set does not come with one that fits into the stem
  • Print 21 Insert_A and 25 Insert_B in a light-colored or transparent filament, preferably white.
  • Insert the Socket (without bulb) from below through the stem.
  • Screw on the Ring from above to secure the socket.
  • Insert the bulb.
  • Click the Stem into the Cap.
  • Enjoy your new lamp!

In case your LED breaks one day you can dissemble the design by remove the stem with a pencil or screwdriver that you insert into the hole of the cap and lift it up. Remove the broken LED and replace it with a new one.

Print settings Important: Do not use any other light source than LED with this Design. Depending on the strength of your LED certain parts of the print might warm up. Your filament has a certain heat deflection temperature that defines at which temperature deformation might occur. Make sure to build a safe product by verifying that the print is not affected by the amount of heat that your light source emits! If you are uncertain or have little experience in building electrified products, please consult a professional!

Usually, a strong LED bulb does not get hotter than 50 degrees Celsius while regular PLA does not deform under 58 degrees Celsius. Those are approximate numbers, and you need to verify that for your own product selection.

Required build volume for A: 160 x 160 x 160 mm Required build volume for B, C and D: 200 x 200 x 200 mm

Material: Filament that can handle the heat that your light source emits. Print direction: stls are rotated correctly, check images Support: none Nozzle size: 0,4 mm Line width: 0,4 mm Layer height 0,2 mm for Cap, Stem and Holder; 0,08 mm for Insert_A and Insert_B Infill: 15% Build plate adhesion type: none


353 Likes454 DownloadsJuly 4, 2024


353 Likes454 DownloadsJuly 4, 2024
This model is restricted by licensing terms.