This is a digital 3D printable model of a handgun used by Jinx from the game League Of Legends and from the subsequent Netflix series Arcane: League of Legends. The Zap blaster has movable parts – the rotating barrel part and the hammer that jumps up and down with each trigger pull.
The download contains pieces of the model ready to be 3D printed on a 200 mm print bed and files that are not cut into smaller pieces. All cut parts are placed on the print bed as we would print them to save you time.
At 100% scale the model’s dimensions are approximately:
You can scale the model as you wish but we can’t guarantee that at a much smaller size the model will print well.
3D PRINTING SETTINGS
We use these settings for most of our prints:
Layer height 0.2 mm
For parts that are tall but have a small base, we use a 10 mm brim for better bed adhesion.
We try to make the models in a way that uses as little support material as possible.
This model is meant to be post-processed after printing. This can be gluing, sanding, painting, etc.
Printing settings will vary greatly depending on your specific printer.
Do you like the model and don’t have a 3D printer? There are lots of people who offer 3D printing services these days. Try searching for someone who offers them in your area.
This fan-made model was brought to life by 3Demon. We are a group of modeling and 3d printing enthusiasts based in Prague, Czech Republic. We’ve been making 3D printable models for more than a decade. We make a lot of cosplay accessories but we also make all sorts of interesting 3D models. You can join our community or just look at more of our creations here: https://3d-mon.com/links/
Got something to discuss?
Can the hammer be pulled back and locked before pulling the trigger, or does it just pop up and down with each trigger pull?
It is a simple mechanism, it pops up and down with each trigger pull.
Does the purchase of the STL file come with assembly instruction?
It comes with OBJ file, that can be opened in 3D builder or meshmixer and you’ll be able to see where the individual parts go .