This is a new iris box design which is perfectly spherical when closed (81mm in diameter). The design requires 24 M2x6 counteunk screws to assemble (or M3x8 screws at 150% scale etc.). No support material is required for this design, although on some parts a brim is recommended. The multi-colour desig are achieved by simply doing material swaps on a standard single nozzle FDM printer.
The box is opened by turning the twist collar to unthread it and open the mechanism. It is further rotated, while holding the base stationary, which tur the gea and actuates the iris door. There is an optional stand makes holding onto the base and using the box easier (and stops it rolling away when you put it down).
There are a few decorative styles for the components: 2 stands, 2 bases, 2 colla, 2 gea and 4 top door patter. Beware that the second top door style 'Top door 2' will only work with 'Bottom door 2' and vice vea. In addition there are blank veio for a smooth sphere surface which are not numbered (although the smooth base makes opening the box quite difficult).
Edit: I have updated the base files, extending the pattern to the edges more and making the central pattern better for filament swap multicolour printing.
Edit 2: I have increased the size of the alignment notches on the 'Internal collar' to make assembly easier (not included in the zip file).
For the box you will need to print: 1x 'Body', 1x 'Base', 1x 'Internal collar', 1x 'Twist collar', 7x 'Gear', 7x 'Bottom door', 7x 'Top door'. There are optional 'Screw cove' for the doo and the 'Stand' to sit the box on.
Printing and assembly itructio (also see pictures)
When printing the bottom and top doo, I highly recommend using a brim to help them stick to the build plate. You also need 24 M2x6 counteunk screws to assemble (same as my other desig). To test the fit of the screws, print one 'Top door' and one Gear. The screws should be tight (but hopefully not splitting the print) in the blind holes, and loose in the through holes. You can use contouhole compeation in your slicer to account for this if there are problems.
1) Trim away the brim on the door parts using a craft knife and remove the print-in-place supports from the 'Bottom door'.
2) Screw the rounded end of the 'Bottom door', to the top point of the 'Top door'. Then screw the other end of the 'Bottom door', to the middle hole of a second 'Top door'. Repeat this process until you have a chain of four bottom/top doo.
3) Take the two 'Top doo' on the ends of the chain, and match up their edges to form a loop. Then take the loose 'Bottom door' on the end of the chain, and fit the cam into the slot of the matched up 'Top' door.
4) Fill in the gaps in the loop with bottom and top doo to complete the iris mechanism. The screws should be tight enough to keep the mechanism moving accurately, but not too tight to make opening it wth your hands difficult (it will loosen a little over time).
5) Next move on to assembling the body mechanism. Take the 'Internal Collar' and thread it, gear end fit, into the narrow end of the 'Twist Collar' until it stops. This may be tight at fit depending on your printer tolerances. Place this collar assembly, gear end fit, onto the narrow side of the 'Body' component. Then place the 'Base' component onto the same end of the 'Body', making sure to line up the internal screw holes. Now you can screw the 'Base' and 'Body' together using three screws. This should also retain the collar assembly, but it should be free to rotate.
6) Tighten the three body screws all the way, and then back them off 2-3 tur. The gap between the ring gear on the body, and the ring gear on the collar should be just large enough for one of the small gea to snap in place, to help prevent it falling out later. Adjust the screws until they just allow the small gea to fit.
7) Now for the fiddly bit. The internal collar has 7 notches around the perimeter, these are to line up the small gea around the body; the gea need to be both evenly spaced and at matching angles for the mechanism to work properly. I find it easiest to take each gear, and line the raised hole up with the notch on the collar. Then lightly press the gear into place on the body, making sure it is straight. I then repeat this process around the body pressing in all the gea. To prevent other gea falling out during this process, it can help to use a rubber band to hold them all lightly together (see pictures). It also helps to lightly hold the body and base together to hold the gea in place. Do a quick check to make sure the gea are evenly spaced and match around the body, adjust any that are out of alignment. Now you can tighten the body screws to firmly hold the small gea in place (but not too tight to lock up the mechanism).
8) The small gea should turn in a synchronised fashion as you turn the collar. Turn it until the raised gear holes line up at the open side of the body. You should be able to thread the twist collar back in until it touches the raised lip on the small gea, forming the lower hemisphere.
9) Now take the assembled iris (in the closed position), and place it onto the body. Line up the door holes with the holes in the small gea (this will require adjusting the thread position to line up the holes vertically). Then screw in all 7 doo onto the small gea. Again make sure these are tight to make sure the mechanism moves properly, but not too tight to make it too stiff (it will loosen after breaking in a bit). The box should now move by twisting the collar and holding the base (as seen in the video above). The screws may need re-tightening, and 'helping' the iris section open and close by moving it manually with your hands at fit until it operates smoothly.
10) Once you are happy with the box operation. Press the optional 'Screw Cove' in place (I don't recommend gluing them, otherwise you cannot dissassemble the box fully and you may glue the rotating screw joints) to hide the screws. You can also use the optional stands to display and open the box more easily.
Enjoy your 'Orbox', I hope you like it :). Let me know if you are have any questio or difficulties with the design.