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Updated Version
08/07/2020 at 01:27 • 0 commentsAs my daughter grew, the existing design just didn't scale as well as I would have liked. Also, I had printed all of the original pieces on a first generation Printrbot. It was an awesome piece of equipment at the time, but 3D printers have come a long way since then. Last Christmas, I decided I'd update the design and give my daughter new arm floats. And, to get the job done, I decided I really "needed" a new Prusa Mk3s. Wow, what a difference that printer makes! I was able to dial in the tolerances on the parts quite a bit.
The updated design is overall stronger and lighter. There's less slack in the joints. The angle is easily adjustable (great for wheelchairs that tilt in space).
For anyone interested in making one, feel free to reach out to me-- I love to hear about builds and would be happy to help out with any snags.
https://www.prusaprinters.org/prints/22203-antigravity-arm-floats-v2
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Adaptation for young SMA girl in France
07/19/2019 at 09:54 • 0 commentsIn 2017 I adapt this project for Alyssa. I remake stl files and print them with renforced ABS (I'm a 3d printer).
Please send me an email ateliercaladclic[@]yahoo. fr if you need more information or help
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Silicone Rubber Bands
11/07/2016 at 21:17 • 0 commentsOne of the headaches I mentioned in an earlier log was the rubber bands. Basically, ordinary rubber bands fail rather quickly. I see them start to fail within a month. I recently found some silicone bands that are used for cooking that seem to work really well.
Unlike other cooking bands I've seen that are really long, these are 2", which is pretty much the same as an ordinary run-of-the-mill rubber band. They are also comparably stretchy, and about 6 of them is the right amount of force for my daughter's arms.
I'm hopeful they'll last a lot longer since they're silicone. I'll report back on them in a few months.
Update: After several months, the silicone bands have worked great-- while they are more expensive, they are *much* more durable than regular rubber bands.
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Customizations
10/10/2016 at 11:26 • 0 commentsAs I've designed and built the arm floats, I've tried to keep in mind not only how well it works for my daughter, but how it would work for someone else. I'd much rather build something that is useful to many rather than something useful to only one.
One of the things that I've considered frequently is that this is a wheelchair mounted device. But I expect there are many folks with low tone in their arms who would never need or use a wheelchair. How would they be able to benefit?
Pictured above is a chest and torso brace. I believe it's a polypropylene sheet that's been heated up and molded around a cast. It was made by a professional orthotist. I can envision that the arm floats could be mounted to such a brace fairly easily. Care would have to be taken to ensure that the mounting hardware didn't rub or press against the skin, but that should be fairly simple. In short, it seems that the arm floats could be used by an ambulatory individual with minimal modification.
The length of the Z-Bars is also a fairly easy thing to modify. I've already modified these once to be longer, and it would be trivial to make other lengths.
Changing the number of links of chain for either the shoulder or the elbow would be another trivial change to make. Just print an extra part! As my daughter has grown since originally designing this, I'm starting to think that an extra shoulder chain link might be needed.
And, lastly, since this entire project is open, feel free to modify and use it in any way that you see fit! I'd appreciate hearing from you if you do, but there's no obligation.
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Bigger and Stronger
10/10/2016 at 10:56 • 0 commentsIf there's been a theme to this project, "Bigger and Stronger" has definitely be it. I was initially crazy with optimism at how strong and rigid the ABS 3D printed parts would be. One example of that is the pole mounts where the arm floats attach to the wheelchair frame.
This mount worked fairly well. Each side is 3mm thick. That means that when both sides are bolted together, it's 6mm thick. And it's printed with solid infill for maximum strength. And, as it turns out, it flexes a little bit under load. Since this is the point where all of the weight and length of the arm floats attach, any small flexion here is magnified significantly at the far end of the arm floats.
Here, you can see a side-by-side comparison of the old part (blue) and the new design (pink). The thickness is increased from 3mm to 4mm throughout the part. And ribs have been added to give the part a better grip on the pole.
Here, you can see a green version of the new design in use on the chair. So far, this new design has proven to be very solid and stable. It's surprising how much benefit came from going from 3mm to 4mm in thickness.
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Repairs
10/10/2016 at 09:55 • 0 commentsI print just about everything using ABS. There are a couple reasons. For one, I live in a desert. It gets crazy hot, and I can't count on the thermal stability of PLA. But another, perhaps bigger reason is that ABS is such an easy material to work with. If you make a mistake or something breaks, you can usually fix it instead of having to print an entirely new part. Here's an example of a broken part I was able to fix fairly easily tonight.
Here, you can see where one of the plastic chain pieces has cracked.
Applying a small amount of acetone will "melt" the ABS around the crack.
And a quick clamp to keep everything held together.
The clamp can come off after a few hours, and after the acetone has a day or so to evaporate, the joint will be as good as new.
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Restricted Bends
10/10/2016 at 06:18 • 0 commentsOne of the things I've played with a lot is restricting the angles that the joints in the plastic chain can take. For example, here is a piece of chain from the elbow:
Notice that in the lower left, there is a smaller circle, and then a partial larger circle around it. The larger circle acts as a "stop" to prevent the next link in the chain from turning in that direction. With the stops configured as above, the next piece of chain has a range of motion from either folded back to the right forming a "V" shape, all the way to extended and straight. But it cannot bend any further. A chain made out of links like the one above would readily bend in one direction, but would not flex in the other direction at all.
Here you can see the stops in action:
Here are a few more examples of trial pieces:
The top object is a fairly restricted chain that only allows about 40 degrees of turn in either direction. I initially thought that this would be a good approach for the shoulder joints. By restricting the angle this much, I was hoping that it would prevent any binding of the chain pieces because all curves in the chain would be fairly wide arches. It sounded good in theory, but in practice it was pretty bad. By restricting the movement of the chain, it significantly limited the positions that the chain could be in. And as a result, the rest of the arm floats often couldn't move into the positions that were most natural. It was a quick lesson, and instead of re printing all of the links, you can see in the middle that I took a small saw to the chain pieces and cut off much of the stop, enabling a much greater range of motion. When I redesigned this chain to use a larger bearing, I almost entirely eliminated the stop. While in some circumstances, the chain can somewhat bind, it turns out to be a very rare occurrence, and well worth the tradeoff of the increased freedom of movement.
The elbow, however is a different situation altogether. All of the chain in the elbow is limited to only bend in one direction. This works well to keep the Z rods away from her upper arm, and doesn't limit freedom of motion at all.
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Button Head Allen Bolts
10/10/2016 at 05:30 • 0 commentsOne of the things that's bothered me about the hardware on the arm floats is that it doesn't always provide the smoothest edges. The bolts are a good example of this. While it's by no means a rough edge, these bolts stick way up and don't blend in well with the rest of the arm floats. Basically, it's functional, but kinda ugly and does pose a small risk of things bumping/ snagging on it.
A better option seems to be button head bolts.
Here you can see it in context:
This is definitely an upgrade on my backlog. So far, I've only upgraded a couple bolts when I've had broken plastic pieces that have needed repair.
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Rubber Bands
10/10/2016 at 04:34 • 3 commentsAn ongoing problem I've been running into is that run-of-the-mill rubber bands wear out surprisingly quickly. After a month or so of use, they start breaking down, showing minor cracks, and finally breaking. Stored rubber bands certainly don't break down so quickly (they last for years in my cupboard). I'm guessing that the big difference is light? UV radiation certainly could be attacking them and causing the wear patterns. Perhaps being under constant stress also plays a meaningful role?
Regardless of the cause, I'd really like to find a better rubber band. I'm thinking that some sort of a silicone band would be ideal. But, the only silicone bands I've been able to find are intended for use in the kitchen, and as such are much too big and pretty expensive. If anyone has a better idea or suggestion, I'm all ears. -
Broken Arm
09/29/2016 at 06:26 • 0 commentsWell, here's a good example of the kind of failures I've been seeing lately (i.e. once every couple months) If you look closely at the picture, you can see that the arm float is actually broken in two places, not just one. In addition to where it has completely broken off, the yellow piece is also broken. This is basically the state I found the arm float after my daughter came home from school. Given the double breakage, I strongly suspect that this was subjected to a force much higher than in normal usage. I debate over how much to reinforce against these kinds of issues. On the one hand, I'd like this thing to be near bullet proof. On the other, there will always be a way to break it, given enough force-- is the ROI there to try to make it significantly more robust? Any thoughts?