This lamp is inspirited by the Lotus flower.
It consists out of 12 separate leaves that can move because each has its own SG90 servo.
These servos are controlled by an Arduino Uno. My intention was to control the servo’s by a light sensitive resistor (and it worked well), but for assembly I used a potentiometer. I also added a simple Arduino sketch for making assembly easier. It works with one potentiometer that controls al the leaves. If you don’t know how to wire the servos and the potentiometer (light sensor) please consult the Arduino website: https://www.arduino.cc/en/Tutorial/Knob
In this sketch I divided them in 6 pairs. See picture.
The Leaves and LED holder are printed in “spiral vase mode”. One pair of leaves is printed as a vase. After printing this “leave vase” you have to cut them out with scissors. Most of the leaves I printed with a 0.4 mm nozzle and cutting them went very well. But the orange big ones I printed with a 0.5mm nozzle and that was much harder to cut. I recommend using only one or two layers on the base (bottom). That makes cutting these leaves out easier to. Then I glued the leaves to the holders.
The LED holder is also printed in “spiral vase mode” and for installing the LEDs I made little holes at the top for the wires that go to the LEDs. At the bottom (the side that goes into the hole) I cut out 2 slots. This way it’s possible to put the led holder in the hole and the servo wires can still pass. See picture
The LEDs themselves are 1w and have to be glued on a heat sink. I made these heat sinks of little pieces of aluminum (in flower style). If you don’t know how to drive these LED’s you can consult another model:
The Base is printed “the normal way” and needs support material.
Mounting the arms of the leaves to the servo the screws that come with the servos can be used. In my case I didn’t even use a screw. I included “servo test fit peace” so you can test fit the mounting hole of the “leave arms/holders”.
Then you need 4 M3x10 bolts and 4 nuts. The Servos are installed without screws and fit like Legos.
For the bottom lid you need small wood screws (or the ones that come with the sg90 servos).
I have made short videos of It moving but I don’t have a You tube account.
So I added some with the files in a Zip achieve. In this video I control it by turning a potentiometer. A great disadvantage of the servos is the noise. It works much better with the light sensitive resistor because then the servos move much slower and quieter. But then I had to make a much longer video and the file size would be too great to upload. And I will improve my Arduino sketch in the future I guess
Printed in PET-G
If you have any questions feel free to ask :-)