Unproportional Cube is a mechanical engineering exercise. Rubik's Cubes of orders up to 6x6x6 are typically proportional, that is, their cubies all have the same size. An example is the
V-Cube 6 by Verdes. When the order of the puzzle is further increased, then the corner cubies need to be bigger than the other cubies, because otherwise the corner cubies would fall of, as there is nothing that it connects to the main body of the puzzle. An example of this is the
Over The Top 17x17x17 puzzle which has huge corner cubies. Another approach is pillowing the faces in order to make the cubies look similar in size. An example of the is the
V-Cube 7, also by Verdes. One notable exception is the
Proportional 9x9x9 by Tony Fisher, which turned out to be a
very entertaining hoax.
Unproportional Cube is a 3x3x3
Rubik's Cube that tries to achieve the same goal as Tony Fisher's hoax, but now with a real functional mechanism. The puzzle has very small corner cubies, which would be too small to hang on mid-turn if a classic mechanism was used. The chose solution was to connect the overhanging cubies with the main body of the puzzle by using dovetail connections, similar to
Minimal Twist and
Hollow Cube. An overhanging cubie remains stable mid-turn, as it is kept in place by the two adjacent edge pieces. Solving the puzzle is the same as for the classic Rubik's Cube.
Watch the
YouTube video.
Read at the
Shapeways Forum.
Read more at the
Twisty Puzzles Forum.
Please order a 3D-printed do-it-yourself puzzle kit from Shapeways at this page (check with Oskar about screws and stickers), or
contact Oskar directly if you are interested in obtaining a fully colored, stickered and assembled sample of this puzzle.