Point Break - Desk Toy
Print Profile(7)




Bill of Materials
Description
Please have a look at my new fidget, the Magtire Fidget
Magtire Fidget - Free 3D Print Model - MakerWorld
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Point Break - Desk Toy
I am happy to share the Point Break Desk Toy, a stylish and mesmerizing addition to your office desk, or a physics toy to put anywhere in your home. This self resetting rotational chain reaction mechanism creates a moving wave and has been named ”Point Break” after the location where waves break when hitting land. (I have now learned that this toy goes by the name Xylo by David C. Roy.)
The model is available in 2 different versions (”100% printed” and ”Ball bearings”) and 2 different sizes (8 pieces and 12 pieces). In my opinion, the 8 piece desk toy is a nice and reasonable print while the 12 piece is more impressive but quite large. The ”100% printed” works very well and is easier to assemble. However, it does have some wobble in the X-axis. In contrast, the ”Ball bearings” version (which requires 8 or 12 “605ZZ STEEL EA015 Ball Bearings” or other bearings with an 14mm diameter, 5mm hole and 5mm thick), is more work to assemble but locks the rotating pieces in the X-axis and creates a much smoother, stable and satisfying movement.
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Printing
4 print profiles are available (100% printed – 8 pieces, 100% printed - 12 pieces, Ball bearings – 8 pieces, Ball bearings - 12 pieces). The print profiles have been organized to fit the A1 mini (if printed in single colour or without prime tower) and to include a modifier to add a second colour to the rotating bars. I welcome the community to provide additional profiles with different colour schemes, or plate layout.
There should be no issues printing the pieces needed for this model, except for the fact that the long shape of most pieces might make them prone to warping. In addition, the small ”spacers” for the ”Ball bearing” version has little contact with the bed, so overall good bed adhesion is recommended. The bar holding the rotating pieces will be under a light constant load, and I have noticed that for the large ”12 piece version”, PLA will start creeping (bending) relatively quickly while PETG seems fine. This piece should therefore be printed in another filament like PETG or ASA. The smaller ”8 piece” version seems fine in PLA (this far) but if you have other filaments available, use them. In addition, this piece needs to be perfectly printed for the mechanism or assembly to work.
Assembly
”100% printed version”
First assemble the stand by simply pressing the ”pillars” into the sockets of the ”bottom” H-shaped part (Figure 2A). This might require some force, and they should klick right into place creating a strong connection. If they for some reason are loose after pushed into place, addition of glue would probably help.
Next, line up all the ”rotational pieces as in the picture (Figure 2B), and insert the rod (Figure 2C). Next put the rod into the the stand first on one side (Figure 2D) and then on the other (Figure 2E). This requires that you slightly bend the stand apart which is fine. The only thing to keep in mind is that the orientation of the pieces as one side of the ”pillars” has an extension to keep the ”rotating bars” away from it. On the other side, the ”rotating bar” itself has this extension. For it to work properly, friction needs to be as low as possible, and for this reason adding some lubricant might be a good idea (although not required in my experience).

”Ball Bearing version”
The stand is first assembled as the ”100% printed version” (see above).
Push ball bearings into rotational pieces (Figure 3A-B). Next, organize the pieces as in the picture (Figure 3C), starting with one ”spacer ring” and then alternating ”rotational piece” with ”spacer ring”. The ”rod” now needs to be inserted (Figure 3D). Now, this should be difficult as we want the ball bearings to sit firmly in place on the rod. If it feels impossible, you could slightly sand the rod to make it thinner. The ”spacers” are not strictly required if the ball bearings are firmly secured on the ”rod”, but will still help creating an even distance between the ”rotational rods”.
When assembled, simply fasten the assembly into the stand (Figure 3E).

You should now have an mesmerizing toy for your office desk to fidget with all day instead of doing work!
Please Enjoy!
If you liked this model, Please also have a look at my other models in my Articulated Animal Series
Animal Series by kida | Collection - MakerWorld
License
You shall not share, sub-license, sell, rent, host, transfer, or distribute in any way the digital or 3D printed versions of this object, nor any other derivative work of this object in its digital or physical format (including - but not limited to - remixes of this object, and hosting on other digital platforms). The objects may not be used without permission in any way whatsoever in which you charge money, or collect fees.









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