DIY railgun content is seriously nostalgic youtube material
@Pricklyscug2 ай бұрын
It's a Gauss' cannon here.
@ActualRealKayamariOfficialVEVO2 ай бұрын
@@Pricklyscug [loud incorrect buzzer] this is a coilgun, though the differences between railgun and coilgun are less severe than the difference of railgun vs gauss cannon.
@alault-cook40722 ай бұрын
@@Pricklyscugdefinitely not a Gauss riffle. A Gauss riffle can be visualized (if you don’t like magnets) as a ball roll down a hill and hitting block with 2 ball bearings on the end. Like a newton’s cradle the one on the end hits the next ball in line carrying the energy from the previous collision, gaining it as it gets closer to the magnet and passing the energy to the next ball bearing repeating the process.
@Promilus19842 ай бұрын
@@ActualRealKayamariOfficialVEVO it's no coilgun either. In what type of coilgun did you see energy transfer through contacts? It's basically modified railgun design with supporting magnets instead of strong current on rails and with multiturn coil instead of "1turn" projectile closing the loop.
@ActualRealKayamariOfficialVEVO2 ай бұрын
@@Promilus1984 You're sort of correct in the claim that this isn't a coilgun either, but my reasoning here was that due to a coilgun essentially being an unfurled brushed motor this design isn't too far off seeing as those also use sliding contacts when the configuration is coils on the rotor with magnets as the stator. Additionally the base form of a railgun does not utilize permanent magnets (though they can be utilized) while this design of course requires permanent magnets to function!
@davidharley77532 ай бұрын
Fun idea. Some improvements: iron strips on the outside of the magnets to close the field lines; square coils to get get the drive currents perpendicular to the field; graphite core to increase field strength; graphite brushes to reduce contact resistance; use finer wire with more turns to reduce current, all things being equal you'll get the same force and mass if you halve the wire cross section and double the turns (or you can then double the voltage to double the force for the same mass).
@boots78592 ай бұрын
More turns will increase resistance and reduce conductance, right? Interesting to test though. Somewhere, some Defense engineers are passing this vid around the office betting on if the author keeps experimenting.
@VEC7ORlt2 ай бұрын
Design engineers laugh when passing these vids around cause the understand magnetic circuits and linear motors, unlike op.
@ArchieHalliwell2 ай бұрын
I assume you mean ferrite cores?
@jacobthellamer2 ай бұрын
I think aluminium wire would be good. 60% the conductivity but only 30% of the weight. Enameled flat aluminium wire.
@jacobfaseler53112 ай бұрын
Finer wire with more turns would actually not work as well - field is proportional to current (thicker wire more better) and the rate at which the polarity of the field can change is inversely proportional to the coil’s inductance (again, thicker wire more better)
@kutzbill2 ай бұрын
i an a retired engineer, but I still love to watch people figure stuff out, and great job! I worked a lot on rail gun tech. It's pretty scary when you get up to levels they use for weapons. I also love how you designed and printed the parts out. Thanks for the posting. I know you put a lot on work in this video. Smiles!
@keyscook2 ай бұрын
After all of the $$$ + R&D, why did the rail gun not get put into action? I suppose space-based kinetic weapons are scarier!!! Cheers from Seattle!
@cl49982 ай бұрын
And I an astronaut
@orange11squares2 ай бұрын
@@cl4998 more nut than astro-nut :)))) funny joke.
@derekflegg25102 ай бұрын
Could you put a high voltage capacitor (inside the coil) to supply the power to the launcher - so that the capacitor is part of the projectile?
@bourigaahmed43032 ай бұрын
Loved it mand , great video , great work , I live the 😂 and the various test , same feeling I get when i work on a project 😊
@capone24882 ай бұрын
14:53 the reason it goes faster than your estimation is because the magnets cause less back EMF in the coils at lower speeds. Also a tip, as the coil speeds up down the rail you need to "advance" the polarity switch timing to account for the lag of the inductor/s responding to the voltage applied. They do not immediately produce a magnetic field. This could be limiting your speed (as well as back EMF providing a maximum limit for any voltage you apply).
@malebolgia85522 ай бұрын
I had a similar thought when watching the video and went back later and posted a comment about it, fortunately you posted a much better version 3 hours before me 😂
@capone24882 ай бұрын
@@malebolgia8552 😇
@jackevans23862 ай бұрын
A small amount of MCU code would sort that out.
@capone24882 ай бұрын
@@jackevans2386 it's not digitally controlled? Either way no amount of code can change either magnetic induced voltages...
@malebolgia85522 ай бұрын
@@jackevans2386 This version is purely electromechanical so there is no where to add SW based delays, the first version had computer control though. Having the contacts able to move separately from the magnets would allow for tuning of the timing advance needed to maximize the acceleration. The problem is that this tuning would be sensitive to the total weight of the sled and payload so not friendly for variable purposes. I would also add that the speed of the sled vs. number of windings experiments needed to have a dummy payload on them otherwise the results will not scale properly. Adding 10% mass to the total weight (sled+payload) for double the windings is a much different argument than adding 75% mass to just the sled for double the windings.
@MakersMuse2 ай бұрын
Absolutely in love with how analog and raw this thing is haha. And it works awesome!
@leobuana74302 ай бұрын
Make it float and we end up with analog maglev
@LordxJoe2 ай бұрын
i love it also, but i can't help but imagine a trebuchet being so much better.
@LA6NPA2 ай бұрын
There's a very good reason brushed motors do not use metal brushes, but graphite (with a little powdered metal). Though brittle, and not really that hard, these brushes are very slippery and hard wearing, and will conform to small scrapes and wear on the contact points on the rotor shaft. So if you actually machined the contact points on the rail, some very cheap replacement brushes made for, say, an 18V drill, or even a 220V drill, will work for ages. Some of them even come with their own springs, and basically all of them come with a wire already attached, so you wouldn't need crimping. moving the power rails to the middle might be a good idea as well, having the brushes pinch a power rail, rather than push out on either side. With graphite brushes pinching a central power rail, you can also put much more force into the contact (remember they're slippery), therefore making the contact with each electrode (I'm missing the proper word for this, please tell me if you know one) "promptly, precisely, with force and without hesitation, as expected". You may also have to use copper/brass as electrodes. And maybe make a tool with two brushes to clean them if you still get arcing. Anyway, love the vid, and can't wait to see what you'll do with this!
@webx1352 ай бұрын
Seeing all the sparks and spark damage, I have quick and simple recommendation: I'm not sure the voltage you are running, but across the terminals of the coil, solder something like an MOV in parallel. The sparks are created by inductive kick. So if you have 24v going through like 2 ohms, you're going to have 12A running through the coil. When the contact is broken, it is slow to change current, and will try to force 12A through open air, resulting in a huge voltage spike. An MOV becomes more conductive at higher voltages to protect against voltage spikes. This could drastically reduce the voltage of the spikes. There would still be sparks, but they would be less damaging. I didn't think this over too much, though. So there might be other effects to contend with. For instance, since the coil could "free-wheel" at the threshold voltage, it might make the current in the coil last longer, so you might get slowdown. It would be something to test. You might want a reverse-current bypass diode on your output source as well. EDIT: Dang, now I'm thinking about it. You could even try a capacitor as well as the MOV, Have it store some of that remaining energy into a capacitor that is ready to discharge in the opposite direction. But that might be tricky due to all the phase issues at different speeds.
@JustAnotherAlchemist2 ай бұрын
MOV's are like fuses, they are more or less "in case of" not really "to remove existing." TL;DR: the MOV would probably not last too long. I personally would try and go the tuned passive rout, as that is keeping closer to the "purely mechanical" theme.
@BrainHurricanes2 ай бұрын
What is a MOV ? You mean a diode ?
@arsilvyfish112 ай бұрын
@@BrainHurricanes A Varistor, try googling :)
@Jordgubbsoppa812 ай бұрын
Dam how long did you take to type that for people like me to not read it 😢
@kjdude87652 ай бұрын
@@BrainHurricanes Metal Oxide Varistor
@FondueBrothers2 ай бұрын
Two suggestions: Insert an iron core into the coil to focus the magnetic flux. And exponentially increase the magnets along the track to build up the acceleration.
@FondueBrothers2 ай бұрын
Sorry, that should read "exponentially increase the spacing of the magnets along the track to build up the acceleration"
@warlockd2 ай бұрын
@@FondueBrothers maybe not?. You could, in theory, print it like a channel and just stack the magnets next to each other. At this point it becomes how close the AC connectors can be.
@oasntet2 ай бұрын
A powdered ferrite core is likely going to be even better than an iron core, but finding the ideal mix will depend on the switching frequency...
@DaveEtchells2 ай бұрын
@@oasntetI agree that powdered ferrite seems like it would be better, but as you say I’m not sure whether the frequencies involved would be high enough for it to make a difference or not.
@oasntet2 ай бұрын
@@DaveEtchells Guessing really wildly and looking at the frame data in his analysis, I estimate the switching frequency can't be much more than a kHz or two. That said, it'll look more like a square wave than a sine because of the time spent in air, and it's really the charging and discharging time we care about most. If we sliced out the air time and measured the ramp up / ramp down times, that could be far higher. I wouldn't even know where to start, there.
@misterdurden16282 ай бұрын
The solution for the trigger mechanism and way to complete the circuit legit blew my mind. That was crazy creative! Coolest thing I've seen in a while
@NoKi11192 ай бұрын
You could integrate this launcher into ProjectAir's giant RC aircraft carrier and you'd have the ultimate model plane takeoff from the sea - please consider the collab! Amazing stuff as always Tom. :D
@EKUL342 ай бұрын
@@NoKi1119 so cool to see your name outside of the wan show. Big fan of your timestamps
@BenKickert2 ай бұрын
@@EKUL34 I had the same reaction! Kinda like when I see Lock Picking Lawyer comment on other videos I watch.
@RobDavisAkaMonk2 ай бұрын
I was going to comment this if someone else didn't.
@insanecreeper90002 ай бұрын
That would be awesome! also great job on the wan show, you're doing gods work!
@boogiehasfun2 ай бұрын
it might require a little bit of modification but i agree.
@hiredgoon42692 ай бұрын
12:37 If you're using a cap screw to hold your sled brushes in place, you can probably fold the brush around the strip and skip the solder. The cap screw should be fine for a compression fit, if not, a little tweaking to your design and you're good.
@feha922 ай бұрын
Yeah when he said he clamped the contact surfaces together, I thought he meant he clamped the contact surfaces together (the contact surfaces being 2 strips, one soldered to coil, other clamped onto the brush). But all he means was that the clamp held it in position, and still needed to get soldered :p (ps: I know he said he needs to solder on new brushes, but he actually do not. The brushes are clamped into position into the soldered strip, but not soldered stuck. So he could bend it open, replace the brush, and bend it stuck again. Will get metal fatigue, but should work for a couple replacements before that happens at least.)
@hiredgoon42692 ай бұрын
Also, since you're using solder wick for brushes, soak it in alcohol for a bit and blow it out with compressed air. Solder wick has flux in it an might be contributing to the residue left behind when it arcs and sparks.
@bahadrgergin63342 ай бұрын
If you add a capacitor parallel to the coil ends, you can reduce the electric arc between the contacts. Nice project, very fantastic works can be done on a larger scale.
@Claude_Lib2 ай бұрын
The sound of propeller revving up at 14:32 is so satisfying for some reason.
@AshrZ2 ай бұрын
I thought the same when I heard it! That bass was wild
@g.42792 ай бұрын
Yeah it sounds so cool.
@theaveragepro17492 ай бұрын
It's probably fake audio though, audio generally doesn't work in slow mo. The slo mo guys have to artistically create audio for every shot. In this one I think you can see the sound pitch is too high for the speed of the propeller at that time.
@AshrZ2 ай бұрын
@@theaveragepro1749 Wdym? That was like 25hz and if this was 4x slowdown that's 6000 rpm, which isn't completely out of the ballpark
@SreeTejaSimhaGemaraju2 ай бұрын
I think thats the railgun magnets making the sound, not the fan.
@SniperReady2 ай бұрын
I feel like Tom Stanton is bringing big OG youtube energy. “But what if I engineered a railgun to fire wieners” Classic.
@NathanCaggiano2 ай бұрын
I like that he shows the actual build process and gives you enough info to give you a head start on research into his projects. A lot of the maker community has started to use making as a way of telling a narrative and don't focus on the actual project.
@SniperReady2 ай бұрын
@@NathanCaggiano And like slow mo of the wieners. And the sparks, in the dark. Tom “How can I launch this faster?” Stanton every body
@electriccomics2 ай бұрын
@@NathanCaggiano This is a clever balance of giving some sort of constructive value without boring away viewers
@scotttovey2 ай бұрын
Not wieners. Go with coconut cream pies. You'll get a more enthusiastic reaction from your targeted audience. Of course, if you hit a gal in a nice dress, you'll be running for your life, but hey, it is the viral video were going for right?
@Dailymailnewz2 ай бұрын
Mr Tom try the floating traine idea..
@deepakrao75502 ай бұрын
The redo and the detailed reasoning done here is mindblowing 😊
@Gruntzilla2 ай бұрын
Graphite carbon brushes are used in electric motors that have a high durability, don't leave molten splatter, and can be held to the contacts under pressure with a spring. Love the all mechanical design!
@ikocheratcr2 ай бұрын
The more turns the coil has, the higher the inductance, that causes current to increase slower. From video you can see that you have a few ms per contact point, so minimizing the time to hit max current is important. Magnetic field is proportional to current, and also proportional to number of turns, but number of turns is also proportional to inductance, and that is something you want to reduce.
@AntoineZenRuffinen2 ай бұрын
Slight correction here: When you are winding a conductor, (making a "coil") the inductance is always square to the number of turns, not proportional! See different formula depending on the actual geometry here: en.wikipedia.org/wiki/Inductor#Inductance_formulas. In this video, Tom is building a multi-layer air core .
@oasntet2 ай бұрын
@@AntoineZenRuffinen It does lead to the question of whether a ferrite core would help the inductance more than it hurts the mass; but the mass of the plane probably makes that nearly meaningless. He should have tuned with a plane-mass-simulator, rather than an empty sled...
@asid612 ай бұрын
Higher voltage makes the current rise faster as well, as an alternative to lower inductance
@AntoineZenRuffinen2 ай бұрын
@@oasntet Maybe the ferrite core would help, maybe not. This would need some calculation to know. Nevertheless, I think a good optimization, would be to use an "Halbach array" configuration (en.wikipedia.org/wiki/Halbach_array) for the magnets, as it would improve magnetic field and don't adds any moving mass to the the sled.
@circleofowls2 ай бұрын
I have no idea how I've missed your channel all these years but I'm glad I've finally found it. Epic content, keep it up!
@RoelofRichter2 ай бұрын
Place a steel core in the coils. Also use multstranded wire for coil (litz wire) to avoid skin effect and increase speed at which fields are formed. Perhaps add caps/supercaps to avoid power dips if any. Awesome idea, I build a rail gun way back for my thesis at Uni.
@alault-cook40722 ай бұрын
What was the fps?
@Pawitcr2 ай бұрын
I think proximity effect is more important in this coil. But I agree with a core and additional capacitors along the rail as close as possible. Any resistance has huge impact at those 90 Amps.
@SirMoohsAlot2 ай бұрын
I wonder if the higher coil inductance with more windings causes an issue with the changing polarity. A steel core would definitely improve the coils power output but I wonder if the then even stronger magnetic-field in the coil breaks down to "zero" fast enough before the next contact strip is hit.
@Argosh2 ай бұрын
@@SirMoohsAlotinductivity is already the reason this works worse beyond 200 turns. A core would make this way worse.
@PKMartin2 ай бұрын
The engineering compromise he spends the last part of the video talking about id magnetic force Vs coil mass - a steel core would mean more force but way higher mass so it would probably harm acceleration overall
@Sauci55on2 ай бұрын
You absolutely need to make some kind of 3D printed launched rollercoaster model using this Tom !
@loddude57062 ай бұрын
Avoid the use of rear facing seats . . . the belt stains take some getting out . . . : )
@krowvin2 ай бұрын
The thumbnail had me thinking this was a magnetic train
@user360582 ай бұрын
First thing i thought seeing the thumbnail was "this Is an LSM launch"
@Sauci55on2 ай бұрын
@@user36058 technically his previous launcher was much closer to an LSM launch since it used electronically synchronized coils along the rail and the magnets were on the sled
@adamjames85982 ай бұрын
You are by far the coolest DIY youtuber this kind of content inspired me I'm starting collage and doing engineering as this content has inspired me and has gave me enjoyment watching this makes me want to do this myself and a big thank you for entertaining and inspiring us viewers with your crazy but interesting content creations. Thank you.
@EKUL342 ай бұрын
I believe you will find a performance increase if you wound the windings in a much neater way rather than crossing over itself so many times. Also I'd be curious to know how adding a core to the windings would also help but yes it would increase the weight, I think it's worth a shot. also also... I grew up playing with AFX cars, they used springs to push out the contacts to keep them connected to the rails as best as possible, I think if you switched from the braid to springs pushing strips of metal you might get better contact
@Skwisgar23222 ай бұрын
Add a core, and use smaller wire for more turns at lower weight and you could really crank this thing up.
@eragonawesome2 ай бұрын
As far as I understand, the crossovers in the windings don't matter so long as the windings are all going in the same direction around the spool, the main reason you want tight windings is to fit more of them in the same volume, providing a higher magnetic flux, and therefore more force
@EKUL342 ай бұрын
@@eragonawesome I'm inclined to believe you but I thought in the past I have seen a motor with the same number of turns have high torque when the windings are tighter. I'll admit I don't know enough on the topic
@Skwisgar23222 ай бұрын
@@eragonawesome this is correct. At least any effects of looser windings are going to be negligible.
@webx1352 ай бұрын
You might also slow down the speed that the coil can spike its current. But mechanical things are slow enough it might not have a big effect.
@we4selradio5912 ай бұрын
for speed, alter the spacing/timing of the contacts and magnets in the later stages. use the vid tracker to see where the current acceleration stops....start spreading them out after that point.
@barnett252 ай бұрын
I thought that as well. Kind of like changing ignition timing in a gas engine as the RPM changes.
@naasking2 ай бұрын
The timing would change based on the mass being accelerated.
@we4selradio5912 ай бұрын
@@naasking if the magnet pairs and contacts were each modular and could be spaced along the rail....something whispers logrhythmic pattern to me, but i'm just making it up as i go.
@barnett252 ай бұрын
@@naasking Yup. Maybe mount the contact plates in angled slots and tie them to a lever. Then you place the launcher and mass on the lever to set the timing and lock it in with a knob.
@williamogilvie69092 ай бұрын
Excellent build! The first rail gun I saw was in 1976 at the Francis Bitter Magnet Lab, at MIT. They had capacitor banks the size of fridges lining the wall. At one point the operator used his grounding hook to discharge a bank. About 12" of the 1/2" Dia. rod vaporized. They had 10 feet of foam stacked as a target. Very impressive.
@_D_P_2 ай бұрын
Neat seeing the prop blades deploying midair.
@ziero19862 ай бұрын
that was the best part imo
@JonyMemonyk2 ай бұрын
you should add a ferrite or iron (but the ferrite it not that heavy like iron ) core to the coil to concentrate the magnetic field facing the magnets, you will get more force
@Robbedoes22 ай бұрын
There do exist filaments with ferromagnetic powder inside, and since he has tool change this could be very promising
@weeveferrelaine69732 ай бұрын
@@Robbedoes2 They have fairly poor performance though. Good for prototyping, bad for pushing limits.
@Asher_Cal2 ай бұрын
I remember watching the first video when it came out. How you've innovated and found a much simpler solution is impressive engineering. Great Video.
@justinbanks23802 ай бұрын
8:00 very cool solution to make your own reed type switch! Another idea that first came to me, was making a latch at the top that as it hits, holds it up and won't let it bounce at all. Then to reset, you lift the latch and put in the lower latch
@poipoi3002 ай бұрын
Any off-the-shelf light switch would work even better
@justinbanks23802 ай бұрын
@@poipoi300 I don't know if light switch would be able to handle the amps? (I know most are 25amps AC always confused on how to figure out what DC current that means.) Also, I think there might still be some 'bounce' in a switch at the high of speeds he's dealing with?
@poipoi3002 ай бұрын
@@justinbanks2380 His power source is DC, but if you check how the circuit is used, it's a lot more like AC. The load isn't continuous, instead it's alternating between on and off. Not for long either. Light switches are designed in such a manner that they don't spark. I'd imagine them to have less bounce on startup than what he built, but I don't know that for certain. Thinking about this made me consider something else though. It's stupid to start the propulsion with a switch in the first place. This would just exacerbate melting issues on the first contacts as the sled will spend significantly more time there from a standstill. This is a common issue in railguns that they solve by having pre-travel on the projectile. Instead of some complicated switch to power on the system, the shuttle should be pushed into position. This would also make the shuttle achieve higher speeds.
@Robbedoes22 ай бұрын
By the way, feed your current in on the exit. So the voltage drop over your busbars is less and less obvious to the end, increasing force instead of dropping. 90A is starting to get serious
@four_runner2 ай бұрын
The one thing i really enjoy about your channel is taking really science based applications and shrinking it down so the methods and practical usages can be seen. Launchers like this will be how loads and ship might be launched from low atmosphere planets in the distant future.
@zangryomani12572 ай бұрын
Who else heard "i built a similar launcher a few years ago" checked the video, saw it was 2 years ago, and then stopped to question wtf is going on with time.
@Everybody467_2 ай бұрын
Yes
@COSMIC_SECRET2 ай бұрын
Maybe he forgot it was 2 years ago ever thought about that?
@zangryomani12572 ай бұрын
@@COSMIC_SECRET No its not that. Its the fact that video is *already* 2 years old.
@yewo.m2 ай бұрын
Yeah, time is passing by so fast. I remember watching the video as well when it was more recently uploaded back then
@Dr_Larken2 ай бұрын
A few is 2!
@KevinBein2 ай бұрын
What an awesome project. I love the elegant simplicity of this launcher. Although it makes you wonder just how much current those Navy electromatic aircraft launchers are pulling. That has got to be a wild setup.
@jaydoubledee18532 ай бұрын
>how much current those Navy electromatic aircraft launchers are pulling a boatload
@benphartine2 ай бұрын
I’m not an engineer but I have always been interested in learning about this topic. This is very well explained. Thank you for sharing your knowledge. You have another subscriber 👍🔔.
@cactus_cuber15892 ай бұрын
We finally got the “how to build a railgun” video🎉
@zutaca28252 ай бұрын
Technically this is a coilgun, not a railgun
@cactus_cuber15892 ай бұрын
@@zutaca2825ik but it’s the same principle as a railgun, electromagnets propelling a projectile
@pavelperina76292 ай бұрын
@@cactus_cuber1589 No, railgun is a bit different with projectile being part of a single wire coil and high current pushing rails and projectile apart. This is basically linear motor.
@kreynolds11232 ай бұрын
It has more in common with coil gun rather than a rail gun.
@kreynolds11232 ай бұрын
@@pavelperina7629your correct that this is not a rail gun. But, technically here, power is also conducted through the projectile (coil in the sled) , and technically both linear rail guns and coil guns are linear motors. What makes this a coil gun is simply using a coil despite the fact that more traditional coil guns use coils in stator. Here we get alternating magnets and a mechanically commutated coil in the sled. A rail gun has pure DC flowing through the rails and projectile, and has no coil, and makes continouse electrical contact with the rails.
@ishanr86972 ай бұрын
As a Physics teacher, I can say this is inspirational engineering! Bravo and thank you.
@vetal68062 ай бұрын
you can attach anti-bounce piston mass to the spring-loaded hammer: pour metal powder into a small cylinder, filling 1/3 with it. the mass would prevent hammer from bouncing. the metal powder will move forward and "stick" the hammer in forward position due to inertia
@Convolutedtubules2 ай бұрын
To prevent solder wicking, cool it down with something cold. Bits of metal would be ideal. Also, solder does not flow upwards easily, use this to your advantage.
@miqo852 ай бұрын
I have used solder wick for slip ring contacts and clamping it to bench vice with a piece of aluminium works great.
@Convolutedtubules2 ай бұрын
@@miqo85 Aluminium, or copper, was just what I had in mind! Any metal will work, even wood will do the trick.
@trfpvVT2 ай бұрын
we use aluminum clip on heat sinks to stop solder from wicking up braid. he's an engineer, oh well.
@NathanCaggiano2 ай бұрын
@@trfpvVT I just use a third hand tool and solder from the bottom of the wick.
@jaybrooks10982 ай бұрын
clay works to soak heat. Plumbers use it to prevent damage to valves
@guytech73102 ай бұрын
1. Use Ferrite core on the sled to increase magnetic force applied to the sled. Ferrite would also work better with fewer turns. 2. You can use Electric Motor brushes made out of graphite to avoid plating problem. usually Motor brushes have springs to apply a small amount of force on the contacts to get a good connection. Only one side of the static brush contacts needs to be intermettent. You could just use a single bus bar along one side & just make the other side segmented. 3. Adding local capacitors for each stage (segment) would increase the current for the coil providing more acceleration power.
@MrFlaschenhalter2 ай бұрын
> Only one side of the static brush contacts needs to be intermettent. You could just use a single bus bar along one side & just make the other side segmented. I think this is only true if the polarity between each magnet segment wouldn't be inverted in alternating fashion
@peegion47422 ай бұрын
@@MrFlaschenhalter Correct, if you needed to swap the field after every magnet you need both sides to be segmented. I'm not sure if it is worth flipping the field as the ramp on/ramp down time of the coil may take too long to respond to the magnet's repulsion, not sure tho
@lordreginaldfilibusterАй бұрын
nice desighn work, love that triger setup, if you want it to stop skipping make a locking point as the moving arm comes down, stiff latch off end of the arm hooks under a notch on a flat spring strike plate.
@tirinsplay2 ай бұрын
Tom, for your magnets, try arranging them in a Halbach array for more power . For your switch, have a look at compliant mechanisms to eliminate springs.
@webx1352 ай бұрын
Can also put something like a small sponge behind the switch to help dampen the bounce. A compliant mechanism would be good though. Especially if it's lighter and stiffer than the magnet/leaf combo.
@TheAfricanGarage2 ай бұрын
That sounds brilliant
@EricLaspe2 ай бұрын
@@webx135 This switch he made is a real head scratcher... as in, I'm wondering why he bothered to design such a strange and over-complicated switch with very long travel, and velocity. I guess it's dramatic, but that kind of mechanism is more appropriate on a flintlock musket than a railgun.
@lynxxlynxx2 ай бұрын
@@EricLaspe yeeah i thought the same. why not just use a light switch since they already exist.
@rian0xFFF2 ай бұрын
@@webx135 O just some one-way lock
@duck-in-space-engineers2 ай бұрын
Induction also plays a large part in the coil. I think the sparking is mostly caused by the induction, when inductors are disconnected they create extremely high voltages from the induced magnetic field. (add capacitors across the rails to protect your power supply!) Another improvement to the launcher would be to increase the spacing down the rail, this allows for the coil to get to the right polarity on time.
@dusinnhht2 ай бұрын
And a flyback diode!
@BPBomber2 ай бұрын
Spending the day building rail sleds in the English countryside with Tom Stanton would be my idea of zen.
@aonomus2 ай бұрын
Offering some more thoughts after reading some of the other comments: - To improve the accelerating force: > - Optimize the solenoid field strength by adjusting current (as a function of coil turns and wire gauge) and coil turns. As you increase the number of turns, at a fixed voltage, the current decreases due to the increased resistance of the coil, so simply adding more turns will pass the peak and yield diminishing returns. > - Another way to squeeze more performance out of a fixed length of rail and magnet spacing, is to increase the voltage for later segments. The faster the sled moves, the less time contacts have to transfer current and flip the polarity of the coil's field. Increasing the voltage at a given resistance will automatically give you more current and a faster d2i/dt2. The quicker the coil can flip to the correct polarity and reach max strength, the more time it will add to the sleds acceleration. - To reduce or quench the back-EMF: > - Adding a capacitor to the sled on the coil would reduce the acceleration, as the rise time of the coil is dependent on discharging the coil from the previous contact segment's polarity, and adding capacitance would sustain the negative current and cause delayed current rise time, and potentially suckback if it's severe. > - Adding a bank of TVS diodes on the sled would reduce arcing by quenching any overvoltage, but would not quench the remaining stored energy below the TVS breakdown voltage. TVS diodes can be purchased as unpolarized components so the sled remains simple and light, and conduct quickly. Make sure to take into account the stored energy of the coil (ie: joules) and ensure that the TVS diodes can handle the entire amount. > - Adding reverse current diodes at every segment (alternating polarities) will improve it further - note that the diodes need to be as close to the contacts as possible, so that the power rails themselves do not become a large source of inductance themselves. Any intrinsic inductance in a pulse power circuit will hinder rise time in current. > - One potential experiment to do (even if not for optimization, simply to visualize on high speed video) is to place a bicolour LED across the coil with more than a series resistor (you will have to clamp significant overvoltage from ringing) so you can visualize current in the coil on high speed video, and understand how quickly the coil's begin to suffer suckback.
@StarScapesOG2 ай бұрын
When I was little I loved taking apart... well, anything. But I remember seeing an old DC motor, and the brushes for said motor were spring-loaded carbon rods. Maybe something similar would work for the sleds? That might reduce the wear and tear of the contacts.
@stealthpro1232 ай бұрын
This is awesome. I graduated from Hertfordshire a couple of years ago. Your videos helped me get through my aerospace degree.
@veizour2 ай бұрын
14:48 That is so smooth and perfect!!! Like rocket science running a pre-programmed stage! Love it!
@Yohrog2 ай бұрын
9:46 The amazement about the 3 grapes cracks me up so much lol "Hey, I built a freakin railgun.", "But what if you put 3 grapes in there?", "Ohhhhhhhh" 😮 Like that was the most mindblowing part of the project :D
@krashd2 ай бұрын
Two grapes was more than enough, three was just hubris!
@coco8052 ай бұрын
That is amazing!! I love how you show us the whole development process, very informative.
@lovrospacal2452 ай бұрын
10:26 this is for sure gonna be in a daily dose of internet video
@theaureliasys63622 ай бұрын
actually excited that you made a relay for a coilgun
@mikefinnerty18522 ай бұрын
Wow, that's a lot of work. Both the launcher, and making the video. Thank you! Very cool.
@mrjrlutapiiii67072 ай бұрын
Use 3 coils one 3 sids of the track. So the magnetic field dosnot get wasted. It will also increase the force of the projectile
@weeveferrelaine69732 ай бұрын
isn't wasting the magnetic field of the rail a low priority design criteria? I'd think they're instead going for just the highest power-to-weight ratio of the sled, to maximize speed. Adding more coils that aren't sandwiched between another rail of magnets just sounds like you'd be increasing size of the sled, which increases losses.
@SomeThrillingHeroics2 ай бұрын
11:45 I would also note the increased inductance from more turns, meaning that the coil's field will take longer to reach its full strength. I suspect this may be a factor in why the force you're seeing from more turns is not directly proportional.
@kreynolds11232 ай бұрын
The force is probably still proportal, given his calculations( I didn't double check the numbes) that show the 400 turn coils delivered more Newtons of thrust, but the weight slowed down the rate of acceleration. Yes inductive reactance and resistance do play a factor in how much current flows. But take note that twice the number of coils means you only need 1/2 the current to generate the same magnetic field, assuming the permibility remains the same, rather than change with a saturating core.
@laserdiode2 ай бұрын
Also the coil with more turns produce more back emf. Similar to a motor kv rating the theoretical max speed is achieved with the least amount of turns
@kreynolds11232 ай бұрын
@@laserdiode I'm not so sure maximizing kv will result in max acceleration over a given distance. A rotor under a load may turn as long as needed to get up to speed, but a linear motor on the other hand is constrained by its track length, and doesn't have the option to spin a few more revolutions to get to its max velocity for a given load. There are many more variables to consider: Permibility, core saturation, payload weight, source impedence. On my channel I built an axial flux motor with a kv that was bit too high making it dificult to get started. The coils were wound faulhaber axial flux for 12 poles per coil. There were 3 coils with 4 turns per coil. Even with iron in the stator, the inductance was very low and the motor had low starting torque. There are a number of things I could do to improve that motor. Even the controller could have been improved with use of larger capacitors to reduce source inductive impedence given how fast large currents were being switched.
@reverse_engineered2 ай бұрын
He may also be running into the fact that flux density can't increase forever - the magnetic circuit will reach saturation. Inductors and transformers are carefully designed to maximize flux linkage and avoid saturation. The many comments suggesting a ferromagnetic core and completing the circuit with a bar will decrease the reluctance and allow for greater flux density.
@stevent107414 күн бұрын
You have absolutely outdone yourself! Impressive
@leokimvideo2 ай бұрын
Thank God for magnets, we would be lost without them
@Fastvoice2 ай бұрын
You're thinking of compasses? 😉
@RoboSidzo2 ай бұрын
Did you consider using graphite on the contacts, they would minimise the sparking and energy loss?
@Robbedoes22 ай бұрын
I remember another KZbinr, maybe integza experiment with copper grease, graphite and that kind of stuff
@lsp60322 ай бұрын
most railways use graphite pantograph, which has better overall performance than copper pantograph, so it could be a good idea
@MzeeMoja12 ай бұрын
I saw a short about this project, immediately came to the channel and now I’m an immediate subscriber. I love this kind of stuff and wish and hope that one day I’ll have a similar workshop to do fun stuff like this and keep me busy. Brilliant work, well done 👏🏿
@ABaumstumpf2 ай бұрын
For the slot cars: The good old Carrera system had solid metal contacts and was really reliable, easy to maintain, and also had many tricks up their sleeves like being able to control 2 car individually on the same lane. And for the bounce: Aside from not using a mechanical switch directly as the main switch - why even make it straight contacts? Your switch is a rotating arm: use that. Have the contact follow the arc, with the brush being held slightly flexible and the outside stationary contact having a slight inwards curve: Now once the contact is established the arm is "gently" slowed down and the force of that does not lead to bounceback but rather squishes the the contacts together more firmly. The magnets and contacts also should not all be the same dimensions as at the end of the rail it is already travelling at a significant speed. Either the coils are over-saturated at the start of the run, or at the end it can barely build up a magnetic field cause it is wizzing by too fast.
@christopher41012 ай бұрын
Hmmm. Would be interesting to know how they control 2 diff cars in same lane..
@williamstrachan2 ай бұрын
@@christopher4101 IIRC there have been slot car control systems with AC control, where the positive and negative halves of the waveform have been modulated independently by each controller - eg. Player 1 controls the positive half, Player 2 the negative half. Then each car has a diode biased to ignore the other half of the waveform. Whether the waveform is amplitude modulated each side, or each controller passes their half of the sine wave through a thyristor, though, is beyond my memory. It's a curio from a long time ago now though, we use a variety of wireless comms standards to achieve ~20 cars in the same lane now 😅
@christopher41012 ай бұрын
@@williamstrachan ahhh. Makes sense. 👍
@YodaWhat2 ай бұрын
@Tom Stanton - Just FYI: My old single-stage solenoid Mass Driver accelerates a 60-gram solid _soft iron rod_ from 0 to 70 miles per hour (~31 m/s) in 3/4 inch (19 mm) or less. That is nearly 4000 times the acceleration of gravity, and I built it from junk box parts, plus 50 cents for a pair of high voltage diodes. The solenoid is from an old pinball machine. It is meant to work the flippers intermittently and run on 24 volts AC. A transformer from an old tube-type radio (valves, for you Brits) has the Plate voltage (nominal 440 VAC) half-wave rectified to charge a slightly mismatched _series capacitor pair_ to 700-ish volts and 104 Joules. Discharge occurs in two phases. The initial phase, observed on oscilloscope, is only 1 millisecond (0.001 second) long. During that time the rod gets up to speed, but gets only halfway through the solenoid. The second phase has much lower voltage across the coil as the (still inductively magnetized) iron rod presents its rear half (opposite induced pole) to the _middle through final_ length of coil, thus generating an opposite voltage and largely counteracting the current flow. This slows the rod slightly. During the 1 millisecond of main action, the power through the 19-gauge (AWG) wire is about 50 kW. I use a small relay meant to handle under 5 amps for completing the circuit. This does damage the relay contacts, but they have lasted for over a thousand firing cycles. Peak power during cap charging is about 25 watts and takes about 15 seconds. An incandescent lamp limits peak current to the transformer, to prevent damage to the delicate windings of the secondary. Despite the massive current pulses and the I-squared-R law of resistance heating, the solenoid coil barely gets warm, even with repeated firing as quickly as full charge permits. The design is very far from optimized in many ways and is only about 29% efficient overall, but the performance is something to see: *Stare at the rod, press the Fire button, and the rod just 'VANISHES'* ... across the room. Even gripping the rod with very strong fingers does not stop it 'vanishing'.
@kevinleesmith2 ай бұрын
If u grip the brush is a vice or a pliers, u can then soldering directly to it as the vice or pliers crests a temperature drop / sink
@frankies-13892 ай бұрын
14:14 was waiting for some miscalculations, and expecting the pliers to launch five houses over. Lol
@nonsquid2 ай бұрын
@09:33 "That was a splat!", no, actually the grape gave up a little wine.
@motors-n-bits2 ай бұрын
Cool and fun video. Few thoughts: 1. Adding back iron will probably increase your flux level in the coil, markedly. 2. Don't have the carriage in the range of contacts when turning on the power to the rails. Have a spring launch the carriage at a 'slow' roll at the first contact pair, with power delivered to rails with no load. Fraction of second switch bounce won't matter. 3. Widen your magnet spacing to get higher speed, either widen them all evenly, or space them out as function of distance from first contacts. It will show the early acceleration, but should increase your final velocity. 4. Consider figuring out how much BEMF your seeing from the coil moving in the magnets. Without power, STEADILY pull the carriage down the rails and measure the voltage generated across the rails according to position, and speed. Really needs to be captured with a scope and a 2nd channel for position info. BEMF is proportional to speed. Record of BEMF will let you adjust the contacts position with respect to the magnets. (BEMF is motor-speak for what keeps you from pushing more current into a motor at "full speed" - the voltage you're applying is fighting the voltage generated by moving the coil through the magnetic field.) 5. Consider voltage jumps as you go down the rail. Later contacts will have more voltage than earlier ones, and magnets can be spaced out further at the same time. A series of batteries with multiple taps can feed multiple rail segments. Bit more complex, but still pretty manageable. It will cause a step/jump in the acceleration, so the load should not be too delicate (foam wings?)
@SallyBronteАй бұрын
The only person who never makes mistakes is the person who never does anything.
@starcaster2 ай бұрын
At 10:00 it was The Grape Escape.
@kenengel6202 ай бұрын
Brilliant switch idea. You should see how small you can make it and enclose it. You could market that. Great video!
@MrWilliam9322 ай бұрын
That's great! I would have used the trigger mechanism to move the sled into the magnets, that way you eliminate the electrical bounce completely, also you could add a small RC shock absorber at the end of the rail to stop the sled going off the rails, since the RC plane will be faster the moment of the sled slowing down, the shock absorber will just need to stop the mass of the sled. And If you want extra points just put a linear rail so the friction is virtually zero.
@ebiooo2 ай бұрын
10:50 i felt that
@Jcreek2012 ай бұрын
I think you’re doing it wrong man
@BobbyDukeArts2 ай бұрын
What an excellent video. Pretty much perfect in every way
@timlundyproductions2 ай бұрын
10:35 pump em full of sled
@nolanv42272 ай бұрын
2:00 CARRERA!! MY OLD FRIEND AND JOY
@xanderyate2 ай бұрын
I've watched this video at least 3 times and it only gets better! this has convinced me to learn about this more and make one for myself and try different scenarios. Absolutely love your content and wish i had discovered your channel sooner! PLEASE keep it up
@LifeHappy-2 ай бұрын
7:45 I don't get it, why not just put in a simple on-off switch that you don't need to print and waste time on it? A simple on-off switch has a variety of A ratings, so why not simplify everything?
@dreamexxx2 ай бұрын
Where is the fun in that?
@LifeHappy-2 ай бұрын
@@dreamexxx Actually, you're right, I think it is more fun to create your own switch.
@jackielinde7568Ай бұрын
You didn't need to replace your metal strips for those wired brushes. The Aurora HO scale cars used metal band with a hinge on one side, and a spring on the other. This way, you get constant contact no matter what your "track" looks like. All you needed to do was install a soft spring to make sure the plates kept in constant contact without adding additional friction from a stronger spring pushing harder outwards.
@chriscjjones8182Ай бұрын
Brilliant. May not be the most practical but definitely the most fun
@peterpan4202 ай бұрын
Amazing response for this subject .
@tim03392 ай бұрын
Man this was so cool. I remember watching the original launcher video and this one is completely next level.
@RussellHank-t3t2 ай бұрын
I agree that practical has its purpose but entertaining is what belongs here.
@aco25182 ай бұрын
I've seen this done before but a little different. The sled was spring loaded and would enter the rails at speed. This would save the brushes from frying themselves on initial start, aside from the plus of extra momentum. Additionally, the rails were already live before the sled reached them, the trigger was essentially only to release the sled. Implementing these things might gain you higher efficiency and reliability. In any case, that thing is cool has heck. I hope one day I can make stuff like this.
@oliviawutamАй бұрын
from Canada, you have my respct, thank you
@kerc2 ай бұрын
Love this. Only change I would made is to print the plane base in bright/neon yellow. Definitely the coolest way to launch your plane. 👍
@philkarn17612 ай бұрын
Cool that you got this far without any electronics. But as an EE, I kinda smiled when, among other things, you devised a complex mechanical switch debouncer, something us EEs have known how to do electronically and very simply for a very long time. I'm also sure that the judicious use of electronic switching could greatly reduce your many arcing problems.
@bebarty2 ай бұрын
It's also a very repeatable way to launch. This could come in really handy for testing different designs. You might even be able to modell the exact amount of inertia you give the launched object via a series of tests, so that you can punch in the desired speed and/or acceleration and get the parameters to acchieve just that.
@LouiseHarper-v7vАй бұрын
Joy is what happens to us when we allow ourselves to recognize how good things really are.
@mwiz1002 ай бұрын
To improve the main connector switch the ideal situation is it is held closed under spring tension, and then you release the open position. As then it's biased closed it'll want to stay closed and prevent bounce. Mains disconnect panels use spring tension systems to ensure the contacts are made/broken as fast as possible and held in position to not bounce.
@jamiesmith-sessa84892 ай бұрын
Definitely the coolest way to launch a model airplane! Nice work!
@Rigel_ChiokisАй бұрын
That is so cool! When I used to fly RC planes, I had a plane that the gear was broken, couldn't be fixed, so I removed it and was hand launching it. I would have loved to have one of these.
@Grumpy_old_Boot2 ай бұрын
With thinner wire, you could get more windings on the launcher spool, without higher mass - thus, hopefully more "torque" from the launcher. Also, something I remember from my time with RC cars, is that you can pack the windings a bit better, if you have two very thin wires in parallel. ie. I had a 15 turn motor, and a 15 Quad (4 wires) motor - And the 15 Quad had more lowdown torque, but also required a bit more power to run.
@phil-change247tg82 ай бұрын
This guy made something I wish I could do for so long and he's so calm about. I'd be screaming my hat off.
@EbenBransome19 күн бұрын
The correct way to make a high current switch is with the knife and socket approach, i.e. the knife end enters between two plates held together with spring pressure. You used to see them on really old switchboards. They are fine for making contact but should only be opened with power off. As the knife engages it is still moving forwards, so no bounce. Largest one I ever saw used in anger was rated 1500A continuous and was spring loaded as your design is. And yes, you need substantial capacitors across all the switches. You are creating large amounts of EMI.
@JeffTanner2 ай бұрын
That is seriously right on the money. That plane shoots off that ramp perfect!
@theblubusАй бұрын
very cool slow-mo launch for us to geek out on at the end!!! Great work as always Tom!!!
@bartvandelint2 ай бұрын
I love that you made an analog version, but honestly I am really happy as well to see that the fancy electronics did compete really well.
@dallynsr2 ай бұрын
Definitely the coolest rc place launcher I’ve seen yet.
@astrodoug12 ай бұрын
Great project. I agree with the previous suggestion(s?) to wire in diodes across the coils to not only eliminate the back EMF (and the sparks), but actually increase the efficiency and resulting force on the sled. But I do agree the sparks make it look cool.
@corentinoger2 ай бұрын
Nice! Good idea for the magnet switch, I think I would have used a relay (possibly solid-state) controlled by a push-button. Or, to keep it mechanical make the arm wedge into a U-shape lined with metal so contact is kept while bouncing.
@Alexandragon12 ай бұрын
Thanks for the awesome video with a nostalgic feel for the good old days of "Railgun vs Coilgun" videos!
@WilkerAzevedo2 ай бұрын
Cool projetct. A tip: In the trigger, you just needed to remove the slack from the spring so that the hammer doesn’t retract. The pressure would keep it pressed against the electrode when it strikes. No magnets required.
@ChaselStrongАй бұрын
Conflict is the gadfly of thought. It stirs us to observation and memory. It instigates to invention. It shocks us out of sheeplike passivity, and sets us at noting and contriving.
@MysticalDork2 ай бұрын
You can keep the solder from wicking along the copper braid by pinching the braid with a pair of hemostats or pliers. This pulls heat out of the braid at that point effectively enough that the solder can't remain molten to wick past it.