TELE GYROID
Note: This is a digital download. It includes a total of 13 files:
5 STL files of the guitar body in 5 sections
1 STL file of the pickup cover
1 STL file of the output jack cover
1 STL file of the 3-way switch knob
All STL files also come with a .3mf file (with slicer settings pre-loaded)
Creative Commons: No commercial use, public sharing, distribution, sale, donation or exchange of the digital files
Check out the project details below for more information on how to build the guitar!
Note: This is a digital download. It includes a total of 13 files:
5 STL files of the guitar body in 5 sections
1 STL file of the pickup cover
1 STL file of the output jack cover
1 STL file of the 3-way switch knob
All STL files also come with a .3mf file (with slicer settings pre-loaded)
Creative Commons: No commercial use, public sharing, distribution, sale, donation or exchange of the digital files
Check out the project details below for more information on how to build the guitar!
Note: This is a digital download. It includes a total of 13 files:
5 STL files of the guitar body in 5 sections
1 STL file of the pickup cover
1 STL file of the output jack cover
1 STL file of the 3-way switch knob
All STL files also come with a .3mf file (with slicer settings pre-loaded)
Creative Commons: No commercial use, public sharing, distribution, sale, donation or exchange of the digital files
Check out the project details below for more information on how to build the guitar!
Project Details
Hi everybody and welcome to The 3D Print Zone. So several years back I had this idea to combine two of my hobbies, 3D printing and guitar!
I think being able to turn rolls of plastic into functional parts and designs is the core of what makes 3D printing such a powerful tool. And while finding ways to use 3D printers to make functional parts and designs can be more challenging, I think it is way more fun and rewarding in the end.
This is a fun and challenging project and I hope you enjoy the build as much as I did! Check out the build and a demo of the guitar playing here:
Note: If you purchase the KIT all components are included.
If you prefer to purchase everything separately you can use the links below for suggested components.
☑️ Project Materials ☑️
Affiliate Disclosure: Commissions may be earned on some of the links provided. It won't cost you extra, but will help support the channel!
Electronics
Pickups
Bridge
Neck
Strap Posts
Tuning Pegs
Neck Plate
Strings
Dowels
Super Glue
☑️ 3D Printing ☑️
To print the body of the guitar I split the model into 5 sections so it could be printed on a vast majority of home 3D printers. In my case, I’m printing on a Bambu Lab X1C which has a build area of 256 by 256 mm.
I used Bambu Studio to slice the models and printed the center Core in Bambu Lab White PLA Basic and the outer parts in Bambu Lab Silver PLA Basic.
It’s very important that the inner core piece that mounts the pickups and bridge is very strong in order to withstand the tension of the guitar strings and therefore I used the built in “Strength” profile for the core and an infill percentage of 50. I also increased the number of perimeter wall loops to 6 to give it extra strength.
Since the outer pieces do not see any significant load, I printed them using the “Standard” profile with 5% gyroid infill and 10 perimeter wall loops. I also modified the top and bottom layers to be a value of ‘0’ so that the gyroid pattern would be exposed. That being said, you can can increase any of the infill percentages if you are looking for a stronger or heavier guitar body.
All parts were printed with 0.2mm layer heights, and tree supports were used for overhangs. The smaller jack cover and pickup cover were both printed with 100% infill. To make things easier for you, I’ve included the 3MF files in the download, which includes all the print settings automatically pre-loaded, although you can still adjust them If you want.
If you use the same settings you can expect to use about 1.5 kgs of filament, or about 1.5 standard rolls, and have a total print time of around 35 hours. If you assume an average roll of filament cost around $20, then the entire guitar body will cost you approximately $30 to print.
☑️ Body Assembly ☑️
The guitar body is designed to go together using wooden dowel pins that are 10mm in diameter and 50mm long. That being said, you could also use 3D printed dowels if you prefer. The dowel pins are used to align the parts during assembly and they also provide some stiffness to the body.
I applied super glue to the contact surfaces then used wood clamps to tightly squeeze and hold the parts together to get a strong bond. After gluing everything together I waited 24 hours to let it fully set.
☑️ Neck & Electronics ☑️
For the neck of the guitar I am using a Fender Squier Telecaster neck that I took from an old guitar I had laying around. It has a width of about 55mm and a height of approximately 24mm. The neck gets mounted to the body using a neck plate with 4 screws that go through clearance holes in the 3D print and screw directly into the wood.
Now it's time to install the electronics, starting with a 24 gauge ground wire for the bridge. I fed the wire through the hole to the electronics compartment and taped it to the body using gorilla tape to hold it in place. The bridge will clamp down on it to provide a path to ground.
I’m using pickups that I purchased on Amazon with some extension wires to make the connections easier. After feeding the wires through the hole I fastened the bridge to the body with 4 screws. Next I installed the neck pickup mounting plate to the pickup using the included screws and springs and then mounted the assembly to the guitar body.
Since soldering is not my area of expertise, I decided make my life easier and chose to use an ObsidianWire solderless telecaster electronics kit that has a pre-wired control plate. Essentially all you have to do it push down tabs on a connector and insert the wires to make the connections. Ill provide a link below.
The kit comes with the necessary hardware as well as an output jack that I mounted to the 3D printed mount. After feeding the wires through the body I mounted the jack assembly to the body using 4 small screws. I’m using Ernie Ball Regular Slinky strings, but you can of course use any strings you prefer.
I am not going to walk through the entire process of stringing a guitar and setting it up, but there are plenty of tutorials online for those who have never done it before.
For the guitar strap posts I’m using parts from Musiclily that I bought on Amazon. To fasten them to the guitar I am using M4 x 20 flat head machine screws and square nuts. After installing the small rubber washer, simply insert the square nuts into the slots in the body and fasten the strap posts into position.
The ObsidianWire electronics module is then mounted to an electronics plate by feeding the potentiometer dials through and fastening them with nuts and the 3 way-switch mounts to the plate using 2 screws. Lastly, it’s time to make the wire connections. This step is fairly straightforward, you simply just follow the included wire diagram which shows which wire goes where.
The instructions recommend 6mm of exposed wire for a proper connection and then you simply press the tab down, insert the wire, and release. Now we just mount the electronics assembly to the body using 2 screws and the build is officially complete.
I am really happy with how the guitar came out in the end and I hope you will enjoy the build as much as I did!
