The Yo! Yo-Yo is Finally a Reality!
The 4 parts of the Yo-Yo manufactured in-house: (Left to Right: Body, Spinner, Window, Ring)
The Body
The body, injection-molded with red polypropylene, is the largest part of the Yo-Yo and has 3 key interfacing features.
The backside of the body has a small cylindrical recess in it to hold a metal spacer. At the base of the recess, a nut is embedded into the center of the body. This embedded nut allows the two halves of the Yo-Yo to be joined with a set-screw.
On the frontside of the Yo-Yo, a precisely dimensioned outside diameter interfaces with the Ring. An interference of a few thousandths of an inch allows the two parts to mate together and stay together after assembly without any fasteners.
Near the center of the frontside of the body, another small cylindrical recess is precisely dimensioned to fit a 6mm bearing. In final assembly, the small 6mm bearing is press-fit into the body, joining the spinner and the body together.
The body shape worked well and had a relatively quick production time. Even though the injection-molding machine had to be run in semi-automatic mode to insert-mold the nut, the overall cycle time was only 24 seconds. Note the ejector-pin marks on the frontside of the body. These marks are hidden by the spinner.
Though the bearing press-fit easily into the body, the bottom of the bearing recess occasionally interfered with the inner racer of the ball-bearing, increasing friction between the body and the spinner. A secondary recess, or a curved floor of the recess would eliminate this interference. The body also did not shrink as much as we expected it to. This caused difficulties in assembly, because it took a lot of effort to press the ring onto the body.
The Spinner
The spinner has only one key interfacing feature. On the backside of the spinner, a 3mm peg protrudes from the spinner. In final assembly, a ball-bearing is press-fit onto the spinner. When the bearing is press-fit into the body, the spinner and body are constrained together, while still allowing the spinner to rotate independent from the body.
The spinner is originally injection-molded with black plastic. Afterwards, white-out was used to paint the top surface of the spinner and highlight the letters. The backside of the spinner is asymmetrical, causing one side to weigh more than the other. This causes the spinner to naturally orient itself so that the letters are upright.
The 3mm peg on the backside of the spinner did not shrink as much as we expected. During assembly, we had trouble pressing the bearing onto the peg, but with a little help from a press, we were able to do it. Future design iterations should be used to improve this interface. Also, increasing the weight on one half of the backside of the Yo-Yo would improve performance of the spinner so that the Yo! was always upright.
The Window
The Window is thermoformed out of 0.030" High Impact Polystyrene. The window is slightly oversized so that it snaps into the ring and does not move around during assembly. This surface also has a slight draft angle to ease mold removal.
A small lip around the edge of the window is sandwiched between the body and ring after final assembly, keeping everything in place.
The window dimensions were very consistent and worked well in assembly. The window was a little bit cloudy after thermoforming and scratched very easily. It also had a few pock marks on a few of the parts. Though these defects are only cosmetic and do not inhibit the performance of the Yo-Yo, the window could really be cleared up in future iterations.
The Ring
The Ring, injection-molded out of red polypropylene, has 3 important interfacing features.
The window snaps into the inner-most diameter of the ring. The ring has another very important inner diameter, where the ring has an interference fit of a few thousandths of an inch with the body. These two features are important for the assembly of the Yo-Yo. However, the ring has an even more important interfacing feature.
The most important interfacing feature of the Yo-Yo is the outside surface of the ring. This is how the user interfaces with the Yo-Yo and a lot of thought was put into ensuring this surface felt good as the Yo-Yo was used.
The Ring fit on the body and kept the entire Yo-Yo together very well. During assembly, it took more effort to press the ring onto the body than we wanted. Therefore, future design iterations could enlarge that dimension, decreasing assembly time. Though we were able to cut off the runners easily, it would be a great improvement if the runners could be placed on a surface that was not the outer surface where the user touches the Yo-Yo.
| Target | Tolerance | Actual Measurement | Explanation | |
| Complete Assembly | ||||
| Diameter | 2.514" | +/- 0.005" | 2.513" | We optimized the shrinkage of the Ring so that this dimension was consistent. |
| Total Width | 1.195" | +/- 0.005" | 1.225" | The string gap was about 0.020" larger than the design specifications, which affected the overall width. |
| String gap | 0.075" | +/- 0.025" | 0.093" | It appears that shavings of plastic became lodged between the nut and the spacer, probably because the spacer recess was slightly smaller than the spacer OD. |
| Part 1: Body | ||||
| Interference Fit Diameter | 2.220" | + 0.000"/-0.005" | 2.217" | The interference is slightly larger than designed, because the body did not shrink as much as we expected. |
| Maximum Thickness | 0.350" | +/- .005" | 0.351" | This dimension is small compared to the diameter, and wasn't affected by the poor shrinkage. |
| Part 2: Spinner | ||||
| Peg Diameter | 0.118" | + 0.000"/-0.005" | 0.124" | This dimension did not shrink as much as we expected it to, because it is such a small part. |
| Peg Depth | 0.118" | +/- .005" | 0.112" | It appears that air got trapped at the bottom of the peg hole on the mold, because the peg had a concave shape every time. |
| Outside Diameter | 1.860" | +/- .01" | 1.835" | This dimension was not extremely critical, and it was ok that is shrank more than expected. |
| Part 3: Window | ||||
| Outer diameter | 2.030" | + 0.000"/-0.005" | 2.028" | We optimized the thermoforming parameters so that these dimensions were precise. |
| Inner diameter | 1.970" | + 0.000"/-0.005" | 1.968" | We optimized the thermoforming parameters so that these dimensions were precise. |
| Part 4: Ring | ||||
| Interference Fit Diameter | 2.200" | + 0.005"/-0.000" | 2.218" | When we designed the ring mold, we accounted for shrinkage towards the center upon cooling. However, the ring appears to have shrunk outwards on the ID. |
| Window Inner Diameter | 2.029" | + 0.005"/-0.000" | 2.030" | This dimension has a significant draft angle, so the shrinkage had less of an effect on the inner diameter. |
Earlier we discussed the optimization of the Spinner part. This turned out to be the part with the most difficulty in manufacturing, because of the great variation in feature. The most critical dimension was the peg diameter. The average peg diameter was 0.124", which was 0.006" larger than the target dimension. Even though the peg diameter was off by 0.006", there was very low variability in the process. The injection molding process had a C_p value of 6.41 relative to the tolerance range of 0.005".
During our production run, we purposefully introduced a small parameter change. However, it had very little effect on the peg diameter.
For more information on the variation in critical dimensions during our production run of 50 Yo-Yo's, view our statistics report.
For more information on the variation in critical dimensions during our production run of 50 Yo-Yo's, view our statistics report.
Overall, the assembly of the YO! Yo-Yo went very well and the finished product feels nice in the hand, making it a fun toy to play with. We learned a lot about process control and how to make well-fitting interference-fitted parts.
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