thang010146 | Kinetic art of 6 circle sectors @thang010146 | Uploaded 9 months ago | Updated 2 days ago
Input: yellow six-bar star receiving rotation from the beige motor.
The timing belt drive (brown immobile pulley and blue pulley) ensures that the blue circle sector (fixed to the blue pulley) does not change direction when rotating. Watch a related video:
youtu.be/BkZswBBbvD8
The hexagon timing belt drive ensures that the other blue circle sectors do not change direction when rotating.
The circle sestors do not collide each other because they are arranged in two parallel planes.
This video aims to decode the mechanical mechanism behind the kinetic arts shown in the videos:
youtu.be/ukdf1eucPDc
youtu.be/dLLyqFEoJ_o
youtu.be/9ecQHNDWQfY
Inventor files of this video:
mediafire.com/file/uqzl127tffmko9h/KineticArt6CircleSectorsInv.zip/file
Input: yellow six-bar star receiving rotation from the beige motor.
The timing belt drive (brown immobile pulley and blue pulley) ensures that the blue circle sector (fixed to the blue pulley) does not change direction when rotating. Watch a related video:
youtu.be/BkZswBBbvD8
The hexagon timing belt drive ensures that the other blue circle sectors do not change direction when rotating.
The circle sestors do not collide each other because they are arranged in two parallel planes.
This video aims to decode the mechanical mechanism behind the kinetic arts shown in the videos:
youtu.be/ukdf1eucPDc
youtu.be/dLLyqFEoJ_o
youtu.be/9ecQHNDWQfY
Inventor files of this video:
mediafire.com/file/uqzl127tffmko9h/KineticArt6CircleSectorsInv.zip/file
