Mini-Bot Mangets

[zach1194]

Our team was thinking about using some magnets for our mini-bot. What strength magnets did you use, and did you have them mounted on so that they touched the pole or like 1/2" away from the pole?
Thanks

[jkessler_22]

We're using one of the 2" and one of the 0.75" versions of these magnets: http://www.magnet4less.com/index.php?cPath=1_95 . These seemed to be the least expensive ones we found. With 3:2 gearing (gearhead:wheel), they work fine. When we tried 2:1, we need more traction, so we will probably be going larger or adding additional magnets.

Keep your distance at least 0.25" from the pole, as these are very strong Neo magnets. If you're touching the pole, your minibot won't be going anywhere. Also be careful handling them, since there is a large pinch hazard. On a flat surface, the 2" one can support 200 lbs.

One other item to consider - since these have an intergral steel cup, there may be some question about their legality. They are marketed as "cup magnets", so we think they are safe, but you might want to order some without the cup (not as strong) just to be safe.

Happy hangin' !

[Mike Betts]

Quote:

Originally Posted by jkessler_22

We're using one of the 2" and one of the 0.75" versions of these magnets: http://www.magnet4less.com/index.php?cPath=1_95 . These seemed to be the least expensive ones we found. With 3:2 gearing (gearhead:wheel), they work fine. When we tried 2:1, we need more traction, so we will probably be going larger or adding additional magnets.

Keep your distance at least 0.25" from the pole, as these are very strong Neo magnets. If you're touching the pole, your minibot won't be going anywhere. Also be careful handling them, since there is a large pinch hazard. On a flat surface, the 2" one can support 200 lbs.

One other item to consider - since these have an intergral steel cup, there may be some question about their legality. They are marketed as "cup magnets", so we think they are safe, but you might want to order some without the cup (not as strong) just to be safe.

Happy hangin' !

Joe,

Most schools would not allow neodymium magnets in the hands of a student and some schools will not allow them on school property at all!

The pinch hazard you mention becomes critical if you loose your grip on the magnet as it approaches a ferrous object (such as n EMT pole). The magnet will accelerate to very high velocities in the inch or so of "free fall" and can shatter into thousands of shards at near ballistic velocities.

A warning from Edmunds Scientific on "high quality" neo magnets sold for educational use in classrooms:

Quote:

Handle with care. 2 magnets can snap together with enough force to break a finger or shatter on impact.

Depending on the size and strength of a rare earth magnet, some may be physically impossible for a human being to hold onto if it comes close to a ferrous component. I actually had this happen to me years ago. I bought a neo magnet and brought it close to a sheet metal locker at the school. The device literally ripped out of my fingers and dented the locker. It was also a real @#$$% to remove from the locker...

Mentors should monitor the handling of these devices very, very closely and teams should expect intense scrutiny from robot inspectors if these are used on a minibot (or hostbot for that matter).

JMHO,

Mike

[J.Warsoff]

As said above, I will again warn you and anyone using these magnets:

THEY ARE EXTREMELY DANGEROUS. I HAVE NEARLY LOST MULTIPLE FINGERS MANY TIMES, SINCE I WORK WITH THESE MAGNETS A LOT OUTSIDE OF ROBOTICS. THEY MUST BE HANDLED WITH EXTREME CARE AND KEPT AWAY FROM COMPUTERS, PHONES, ELECTRICAL COMPONENTS, ETC. THESE ARE NOT TOYS, I REPEAT, THESE ARE NOT TOYS!

just wanted to make sure people know how dangerous they can be, but at the same time, they are quite useful, which is why i work with them a lot. the last thing i want is to see people get hurt by these things. safety is always first. be careful, and good luck everyone!


p.s. i know people who have actually had to get fingers, toes, and even entire hands amputed because they were fooling around with neo magnets. even with a hand in between, they will pull towards each other with a MASSIVE amount of force. Actually, 2 neo magnets larger than only a few centimeters can snap together with enough force to break fingers like toothpicks.

[artdutra04]

Instead of using one or two giant neodymium magnets, use a larger quantity of smaller magnets. It's much safer.

The ones we are using only have a max pull of about 3.5 lbs each, and can easily be pulled apart with your hands.

[Rosiebotboss]

We are using two magnets scavenged out of a defunct hard drive mounted about .125 from the pole. Plenty strong and plentiful.

[Joe Ross]

Quote:

Originally Posted by Rosiebotboss

We are using two magnets scavenged out of a defunct hard drive mounted about .125 from the pole. Plenty strong and plentiful.

Make sure you remove the plate: http://forums.usfirst.org/showthread.php?t=16822

[UrizenII]

Although we are not currently using them, we are considering using neodymium magnets from an old hard drive, but I have a question about the legality of these. The magnet itself is obviously allowable, but our problem is the way the magnet is mounted to a non-explicitly permitted material; like I said, the magnet is from a hard drive, so it is incredibly securely mounted to a piece of material that acts as a magnetic insulator. I don't want to try to take the magnet off the mount because I am afraid we'll break it, so my question is this: would it be legal to leave the magnet as is and use it on the minibot, or would it not be permitted since the material it is mounted on is not on the list of allowable materials and so is technically illegal?

[EricH]

I'd suggest that if you err, you want to err on the side of caution. If you choose to go the non-caution route, develop a backup plan that can be installed in an hour or two at competition; the inspectors are likely to figure that illegal materials connected to legal materials are still illegal.

You could also try to get the magnets off... but there are some things that may just be really really unsafe/not smart/impractical. What's the mount like, other than really secure?

[UrizenII]

Quote:

Originally Posted by EricH

I'd suggest that if you err, you want to err on the side of caution. If you choose to go the non-caution route, develop a backup plan that can be installed in an hour or two at competition; the inspectors are likely to figure that illegal materials connected to legal materials are still illegal.

You could also try to get the magnets off... but there are some things that may just be really really unsafe/not smart/impractical. What's the mount like, other than really secure?

That is exactly what I was thinking. Our currently functional robot is going to remain unaltered as the backup, and we are going to test a new minibot with the magnets. However, as Tristan said, trying to remove these magnets will not only be next to impossible, but it will also be incredibly dangerous and unwise.

Tristan, thank you very much for the golden response. It perfectly addressed the question and was incredibly helpful. Your point about the magnets from a "sold as" point of view is puzzling, as you are exactly correct. I know the magnets in question were some that my Dad removed from an old hard drive, and I don't think it's going to be possible to find a vendor with these exact magnets. In that case, it is a modified hard drive, which would be illegal. I'm going to post this in the Q&A per your suggestion and see what kind of results I get. Thanks again for the great input.

Edit: I just searched around on the FIRST Q&A Forum and found someone who asked essentially the same question I did. Here is the response from the game design comittee:

Quote:

Per Rule <R92>, magnets are permitted. All other materials (i.e. mounting plates) must meet requirements presented in Rule <R92> to be used on the MINIBOT.

I gather from this that the mounting plates are therefore illegal because they are not explicitly listed as an allowed material in Rule <R92>. This really bites because, like Tristan said, these magnets are nearly impossible to remove from the mounting plates safely and without breaking them. Bummer. Any suggestions?

[philso]

The magnets from a hard drive can be sheared off their mounting plates relatively easily. Use a large screwdriver to apply the force to the side of the magnet and tap the handle until the magnet pops off. Sometimes, a small part of the magnet remains stuck to the backing plate. The magnet might break into several pieces if you are not lucky. With the going price of dead hard drives being pretty low, you can afford to try this a number of times. All the magnets I have removed seem to be attached with some sort of cyanoacrylate.

Heating the backing plate with a soldering iron may also work. It will not get the magnet hot enough to damage it. I have put these magnets onto red hot steel as part of a heat treating process and they still work fine.

Phil

[Tristan Lall]

That answer about the plate on the back of the magnet strikes me as a little bit odd.

If a magnet is defined as a pure chunk of magnetic substance, then to use ordinary rare earth magnets, you'd have isolate the actual magnetic material by removing the plating—because plating material is not on the allowable materials list. (That's a horrible idea for many reasons, and would be an absurd ruling.)

But if a magnet can have other stuff attached to it, what's permissible? A fridge magnet has a label, or paint—and indeed the "magnet" part is really a polymeric substrate with ferromagnetic inclusions. And as noted above, rare earth magnets are almost always plated.

So why can't hard drive magnets have a backing plate? They're still magnets, aren't they? Or are we reverting to the absurd definition I gave initially? I'm not seeing a middle ground either—the rules don't imply anything about the definition that might be used to discriminate between different varieties of magnets.

On a related note, FIRST has been quite consistent this year in defining components in terms of the way they're sold. It would follow that if these things are sold as magnets, then they would be considered magnets. So, is there a vendor that sells these (as COTS items, to the public), either after having salvaged them from hard drives, or as the supplier to the hard drive manufacturer? If you can find such a vendor, I think it's pretty clear that FIRST's ruling is not correct for all cases (again, unless we're falling back on the discredited definition).

But if you can't find a vendor selling the exact hard drive magnet you want to use, then from a material utilization perspective, you're actually using a modified hard drive (which is not in <R92>). At that point, you need to know whether or not FIRST is operating with a dualistic definition—something like "either it's sold as a magnet, or is inherently a magnet"—or if they're just picking one criterion and sticking to it. You might therefore want to ask the Q&A.

If this were to come up at inspection, I'd say giving the team the benefit of the doubt would be appropriate. I'm not sure how to interpret FIRST's intent based on that Q&A, and I don't think we can expect that of a team in this circumstance. (The team shouldn't suffer because of a rule that was not clear, and for which they executed a reasonable attempt at compliance.*)

By the way, odds are it's not going to be possible to remove that magnet from its plate without something horrible happening to the magnet. It's probably epoxied to the plate, and there aren't many solvents that can dissolve that in a reasonable time. Rare earth magnets are very brittle, so trying to shear it off will probably snap something. Same goes for machining the plate off, except maybe by grinding. And when heated past a certain temperature—like if you tried to torch the glue off, or if you let it get too hot while grinding—they'll demagnetize. Then, even if you get it off, you'll probably lose the plating, meaning the magnet will corrode. And did I mention that magnetic dust is pretty hazardous (both because it's magnetic and will stick to things, and because it's chemically toxic when ingested).

But while I'm on the topic, remember that ferrous metals can be turned into magnets. (Yes, I'm looking at you, Vex sheet metal!) Most magnets are made the same way—using a powerful electromagnet, and a sintered slug of randomly magnetized rare earth or ferrous alloy—so it's not an illegal process. And that theory works in mundane ways too: want to bet that the backing on your hard drive magnet is made from steel—a ferrous metal.

(This of course raises the question of whether FIRST meant to say "permanent magnet", or whether any magnetized substance—like in an operating electromagnet, or a slug of iron next to a permanent magnet—will do.)

*When I say "reasonable attempt at compliance", I mean that they read the rule, attempted to determine its meaning as written, came to a plausible conclusion given the rulebook (this is the key; clearly incorrect interpretations are worthless), and successfully executed a design that complies with that meaning. This is certainly not a validation of the idea that they should be passed for giving it a good effort, even if noncompliant.

[J.Warsoff]

Our team is using neodymium magnets, which a very strong rare earth magnets. as for distance, go with jkessler's description. good luck!

[thefro526]

Currently, we are using one rare earth magnet from McMaster-Carr. Mcmaster might not be the cheapest, but you should be able to get it next day.

[Newo95]

we used half inch magnets with a pulling force of 15 lbs each. We mounted them so they would stay a half an inch from the pole.