This is Anton Firsik's improved version of the forest-themed side panels for the modular lantern. I created various variants, from an easy two-colour to a complex five-colour print. The side panels can be printed on any 3D printer using filament changes.
On this page, you only find the files for the side panels. You need the frame elements to construct a functional lantern. You can download these model files here: Modular Lantern Framework
See more of Anton’s work at: https://www.behance.net/firsik
I prepared an example file LR2268-10-forest-G Print.3mf
, where you can see how a three-colour print is correctly set up. To prepare it using another slicer software, look at the settings table below, or follow the next steps.
A
-M
) into the slicer and arrange them on the printer bed as shown below:Parameter | Description |
---|---|
Nozzle Size: | Optimised for 0.4mm, larger nozzles will not work! |
Layer Height: | Optimised for 0.15mm and 0.2mm |
Filament Materials: | PETG recommended PLA works |
Perimeters: | Two perimeters |
Prusa Slicer Profile: | “0.15mm Quality” |
Variants with Bridging: | Set the bridging angle to 90º or 180º, so the bridging layer is printed horizontally over the side image. |
Using real candles with the lantern requires caution and proper handling, especially when using PLA or PETG filaments, and both materials pose certain risks when exposed to heat or open flames.
PLA is particularly susceptible to melting and igniting when exposed to high temperatures. Once ignited, it does not stop burning easily, posing a significant fire hazard. PETG filaments, on the other hand, have higher melting points and are generally more flame-resistant. However, some PETG filaments may still burn easily.
To minimize risks when using real candles with the lantern:
In the file section, you will find various variants of the side panels. While they all show the same illustrations, the layer layout is different. It means that the variants have a different number of layers for individual colours. Also, this particular design has variants that support three different kinds of bridging.
A PDF with a catalogue of all variants is in the file section. There each variant is named with a letter A
-M
and you find a layout diagram that shows how the model is built.
Let's have a look at one of these layer diagrams:
The diagram shows a side cut through the final print. On the left side, the Y-axis shows the layer heights as you used to see them in slicer software.
The height of the first layer is 0.2mm, and then all further layers have a size of 0.15mm until the height of 2.0mm, where the layer height changes back to 0.2mm.
In the X-axis, you see the stacking of the layers for a particular colour in the design. As you can see, the frame parts are created by printing layers for all colours from the printer bed up to the height of 2.4mm, where the frame stops.
Also, for this variant, you see that the two red features of the illustration are printed directly on the printer bed with two and four layers, but there is an air gap under the two green features. This gap needs bridging, which requires some experience.
In the catalogue PDF, you also find further helpful information, like a table with the exact heights and the correct numbers where to place the colour changes in the slicer software.
The variants can be grouped into three bridging variants:
Name | Variants | Description |
---|---|---|
No bridging | A , B , C , D | These variants are printed solid with no bridging involved. Therefore these are easy prints that work on every printer. The downside is because transparent colours mix when printed on top of each other, you are limited in the colour palette you can use. If you only plan to use one transparent colour and the colour for the frame, these variants are the best choice. |
Bridging large gaps | E , F , G , H | To create the best-looking prints (as shown in my photos), you can print the sides with the primary colours (reds) stacked on the printer bed and the secondary colours (greens), bridging large gaps. So that these prints work, you need a well-calibrated printer, and you may need to play around with the bridging settings until you find ones that create beautiful results. Print these variants if you are experienced with 3D printing and like to create the best results. |
Bridging small gaps with additional support features | J , K , L , M | Additional branches in this design create support structures that allow easy bridging of the secondary colours (greens). The support structures add only a little from the first colours, so the secondary colour stays almost unchanged. The additional branches of the design also add more depth to the design. Use these variants for more light and better contrast between the colours, but still print easily. This is a beautiful compromise. |
The variants can also be grouped into four thickness combinations.
Name | Variants | Description |
---|---|---|
Thin colours | A , E , J | The primary and secondary colours are about 0.3mm thick. This is perfect for either strong coloured filaments or if you like to create a pastel-like effect. |
Thick primary colours, thin secondary colours | B , F , K | Here, the primary and secondary colours are about 0.45mm, and the secondary colours are about 0.3mm thick. |
Thin primary colours, thick secondary colours | C , G , L | Here, the primary and secondary colours are about 0.3mm, and the secondary colours are about 0.45mm thick. |
Thick colours | D , H , M | Both the primary and secondary colours are about 0.45mm thick. This is perfect for either weakly pigmented filaments or if you like to create more intense colours. |
Check out the PDF with the catalogue in the file section for all variants and details about them.
Another design with illustrations from Anton Firsik: Winter Lamp with Design by Anton Firsik.
See more of Anton’s work at: https://www.behance.net/firsik
Interested in my designs? Browse through my collection of 3D models:
👉 https://metikumi.com/3d-models/
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I hope this design makes a beautiful decoration in your home. If you like it, please rate it and upload photos of the colour combinations you used to print it.
Happy Printing!
The author marked this model as their own original creation.