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Flexbot Quadcotper With FlexCam V2.0

Creation quality: 5.0/5 (1 vote)
Evaluation of members on the printability, utility, level of detail, etc.

  • 1 collection

Licence CC BY-NC
Publication date 2018-11-28 at 14:22
Design number 39008
3D design format
STL Folder details Close
  • Flexbot_Quadcopter_With_FlexCam_Battery_Holder_V2.0.stl
  • Flexbot_Quadcopter_With_FlexCam_Cap_V2.0.stl
  • Flexbot_Quadcopter_With_FlexCam_Frame_V2.0.stl

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3D printer file info

3D model description

Yes. So this is the Quadcopter with the Camera on. With the FlexCam, everything will be much more fun. See the world from a different perspective. For the structure of the camera part, we made many changes. Because the former design made the camera easily broken whenever there was a crush. Now, we’ve moved the camera lens part to the frame. In this way, the camera lens can hardly be crushed when the copter lands on the ground.

Flexbot is controlled by the cellphone. You can get the real-time video on your cellphone screen if you are flying the FlexCam version: )

For the other parts, we’ve as well made many changes and improvements on the basis of the previous design. For example, the design of the battery holder: the previous design would fall out easily when the copter dropped on the ground. But it would be much trouble for the user if we design it much more tightly.

One day, I was listening to music with my Beats headphones when suddenly it ran out of power. I found the design of its battery part was rather special while I was changing the batteries. The cap was put in by rotating. It worked well. That’s where my idea of the 3D battery holder came from. The battery holder can hardly fall from the frame in this way. The battery part is actually very important because it plays as the landing gear of the copter.

For the frame, it depends on two parts: Weight and Strength. Weight… strength…..strength……weight…..then….bang, the structure comes out. Well, that’s my hope. The process took longer than I thought, as a matter of fact. We developed many versions which did not work. Flexbot either flew unstably or fell down on the ground and crushed. The final version took many efforts. We even did the dropping finite element analysis in a simulation environment. It was quite a long way of testing and experimenting. Now the frame is good-looking (at least from my point of view), strong and neat.

The new frame also embraces other changes, for example, the motor seats are wider on the top part so that it will be easier for users to push in the motors.

I find 3D printing bringing much convenience to us. Whenever we want to change some details of Flexbot, I just sketch up on computer and print it out. Think about how much trouble it will be if it is by molding. That’s why we enjoyed the digital fabrication so much. It’s fun, creative and limitless. It’s good for products, and perfect for prototypes as well as testing.

Currently, we are still working hard to improving the structure and and developing new relevant products. If you have any feedbacks or any ideas about Flexbot, feel free to contact us. Anything would be good. Really, I mean it, anything.

Waiting for you ; ) Find us on


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