5 inch FPV drone
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Description
5 inch FPV drone - G4ZO x2 frame
A frame for a 5-inch drone that I designed, in my unprofessional opinion I feel like it flies pretty well. I printed it from PLA but its melting point is too low and maybe it's better to print from PETG/nylon/polycarbonate.
Update:
PETG is too brittle
Nylon is too flexible
PC and PLA work well
In the future I want to design a new frame with separate arms so that if one breaks you can replace just the arm and not the entire frame.
Boost Me (for free)
Drone components
These are the components I used but you can replace them with other components with similar dimensions.
- SpeedyBee F405 V4 55A STACK
- SpeedyBee ELRS receiver
- SpeedyBee TX800 VTX
- RunCam phoenix x2 sp v3 camera
- 6S 1250mAh 130C battery
- Axisflying AE2207 1960kv V2 motors
- Gemfan Hurricane 51499 propeller
m3 Screws
- 16 m3*8 - for the motors
- 2 m3*35 - for the top
- 4 m3*30 - for the top
- 4 m3*20 - for the flight controller
- 2 m3*10 - for the VTX
- 12 m3*4 insert with an outer diameter of 5 mm
frame test
Because 3D printing is relatively flexible, you need to make sure that vibrations don't enter the flight controller and mess up the sensor readings.
To test this, you need to arm the drone without propellers and make sure the motors spin smoothly and quietly and don't go crazy.
It is recommended to burn the ESC with software that allows you to use RPM filter, such as Bluejay.
If the motors go crazy and overheat, the frame is too flexible and you need to print from a stiffer material or tune the PID. I used the default PID settings and had no problems.
print settings
These are the settings I used, feel free to change the settings to whatever you think will work best.
For the base and top I printed with the following settings:
3 walls
4 bottom/top layers
0.32 mm layer height
0.6 mm nozzle
25% infill
The spacers I printed in resin.


















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