Domagoj_42
Member
- Joined
- Jan 28, 2021
- Messages
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Greetings,
for my school project, I made a fully 3D printed rocket with a payload compartment containing sensors (as can be seen on my post in the electronics topic). The design involves 3 fins, an engine with a screw-on cap to keep it in place. The top of the rocket is comprised of a payload compartment which is placed on the fuselage after the parachute is loaded. The payload is loaded from the top, and the nose is then screwed in from the top of the payload compartment (can be seen in the pictures I sent. The mass was about 150g, and flew up 50m with a C6-3 engine according to the pressure sensor.
I also use a 3D printed mounting ring to keep the electronics in place with some nylon screws. On the top of the fuselage there is a small ring to which the rope can be attached to connect the payload compartment. There are some shortcomings, such as the holes in the payload compartment from the rope attachment which need to be filled with hot glue or they might vent gasses from the ejection charge.
For the report for the school, I need to get feedback from other people, so any feedback would really be appreciated.
The full project is here, on Github (including Fusion 360 files, .stl files, slicer profile): https://github.com/domagoj-42/3D-printed-model-rocket-
Some pictures:
for my school project, I made a fully 3D printed rocket with a payload compartment containing sensors (as can be seen on my post in the electronics topic). The design involves 3 fins, an engine with a screw-on cap to keep it in place. The top of the rocket is comprised of a payload compartment which is placed on the fuselage after the parachute is loaded. The payload is loaded from the top, and the nose is then screwed in from the top of the payload compartment (can be seen in the pictures I sent. The mass was about 150g, and flew up 50m with a C6-3 engine according to the pressure sensor.
I also use a 3D printed mounting ring to keep the electronics in place with some nylon screws. On the top of the fuselage there is a small ring to which the rope can be attached to connect the payload compartment. There are some shortcomings, such as the holes in the payload compartment from the rope attachment which need to be filled with hot glue or they might vent gasses from the ejection charge.
For the report for the school, I need to get feedback from other people, so any feedback would really be appreciated.
The full project is here, on Github (including Fusion 360 files, .stl files, slicer profile): https://github.com/domagoj-42/3D-printed-model-rocket-
Some pictures: