The Metal Lathe Made With A 3D Printer
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- เผยแพร่เมื่อ 5 พ.ค. 2024
- Deaf man finds normalize audio button, dozens rejoice.
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Parts:
Might upload. might not. Again, WIP.
There WILL NOT be a large build guide or instructions for this specific version. The final version will of course have that.
Music:
Minecraft soundtrack
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My name is Chris, I am a 3D printing hobbyist from australia. I dont really specialise in anything specific, but 3D printed tools and tabletop accessories are some things youll probably seen quiet often. I do all my 3d printing on a Ender 3, which I highly recommend as a budget printer. Currently I only run 1 printer but I hope to expand that in the future. Recently acquired a photon 0 to do resin printing with. I like to share all my 3D printing ideas for free although I do plan to sell stuff in the future. Most of my projects will be mostly 3D printed with a few non printed components included, these can often be found on ebay. I actually use the cheapest filament I can get for all my projects, again I hope to change this in the future. - แนวปฏิบัติและการใช้ชีวิต
This video needs more footnotes than a Discworld novel.
Some things of note that didnt fit in the video for one reason or another:
-Square gravers are what the watchmakers lathe would use. I ordered some, but they are yet to arrive. Should provide significant advantage
-It has the option to be bolted down. I didn't this video which only really shows during the wood lathe section.
-The drilling option REALLY needs work
Probably some other things idk
Your motor would be able to deliver more of it's power if you put a flywheel on the back of the chuck axel.
For bed extensions - I dont have an idea for the rails themselves but for the printed sections you could print joint-able parts like this: th-cam.com/video/WY8yd191qVE/w-d-xo.html
Today I learned where the scattershot focus in the discworld audiobooks comes from! Time to hit the library and start the series from the top with my eyes instead 😉
Buy the cheapest cordless "massager" (looks like a gun) you can get. 3D print funnels for your openings and fill the with concrete. Vibrate the thing using the massager and the concrete will flow like water. Well, almosr. I use it to liquefy plaster all the time!
I have been told my concreting is "the least satisfying thing on all of youtube" by a friend aha, good tips.
That's a great tip. Have one and everything.
But don't put "massager" on quotation marks, that makes it far worse xD
Might be able to find an old used dental plaster vibrator for cheap as well
@@BernasLL haha, I'll keep that in mind!
If you don't want to buy one of those I'd suggest sitting the wet concrete on top of the washing machine when it is going into it's spin cycle. Some of these new machines have VERY high spinning speeds & I'd bet both top fill & side fill would work.
Finally, my dream of desk machining is in reach
Quite literally, "in reach"
Ever heard of a jewelers lathe?
@@XxIcedecknightxX Hadn't heard of a DIY one, personally.
@@Decapent_Tater me niether, good thing he didn't say a DIY one.
Always has been, a sherline is less than a grand. As a bonus, it's not a joke of a badly designed noodle like this thing.
That would be perfect as a child's first DIY lathe. It looks easy enough to build without costing a lot and will get them well established as 'Makers'.
To make it easier next time for cleaning the concrete, spray some cooking oil on the plastic ( even inside is ok to make it flow to every corner ) first then pour your concrete ( use a tiny squirt of dishsoap to make it flow better in the mix and add a bit more water your mix is very dry and compressive strength does not matter for your purpose ) then wipe the surfaces with a wet rag / paper towel it will come off 10000% easier
uh-oh. he's using his lathe to upgrede itself.
before you know it, you'll be on machinist youtube with a "real" lathe, a mill and an old mill you're "definitely upgrading into a CNC mill"
Very cool. Have you ever read the Dave Gingery "Build a workshop" series? Book 1 is a foundry for melting aluminum. Book 2 is building a lathe from scratch, largely from aluminum castings using the foundry constructed in book 1. Using a 3d printer to make your casting patterns, I bet someone could follow that book alot more easily than when it was written.
hand turning steel is wild
scaner - printers units have nice free stainless rods if u see them for e-waste on the street
Use epoxy-granite instead of concrete. It's dimensionally stable, and concrete isn't.
hahaha dimensionally stable.. like he has some tolerances to keep 😭
@@feilko2170 that's exactly both thoughts that poped in my head. why tf concrete but on the other hand... well... he's not working with car parts
I think the point is to make it heavier, also cheap.
FOSSCAD are gunna' love this
Great idea to scrounge office printers for guide rods and other components!
Nice! I like the combination of cement and 3d printed molding.
Old tech + New tech + Brain = Super!!!
Commenting so the YT algorithm will promote this. This is very impressive. Thanks mate.
I have been dreaming for years to make a mini lathe. Yet I came to the same conclusions when just contemplating it, it wont be rigid enough. Now you concreting approach changed that ! Thanks for the inspiration !!!!
Im glad people are getting the takeaway with the concrete. My design is probably a bit over complicated but the basic premise can be applied to so many printed applications
@@Borgedesigns rest assured, if I designed it would be most likely way more complicated. I think yours was pretty simple and elegant for what it does !
Me I would have to add a cross slide and some form of auto feed :).
I was actually thinking of using the 3D as a mold for aluminum casting the base.
Brilliant project. Please find it in your heart to upload😂. I have built a 3d printed CNC, Drill Press, Ball vice, Heat set insert press, belt sander, and was searching for a 3d printed lathe.... None grabbed my interest until I saw your design. Please, please, pretty please upload the files. ❤❤❤❤❤❤
Love your videos since I saw them... the thing I like the most which sold your channel to me, is minecraft songs playing in the background.
Theres something peacefull and calming in your videos. Good to watch. Keep up the good work
This is so fantastic. I would love to see bolt mounting points to fix to a desk!!
I also wonder what it would look like if you had a mini tool holder with a lead screw to be able to do more precise work !!!
Thanks :) IT does have mounting points I just poorly illustrated it. In hindsite, the extra 40 or so for a cross slide setup could be worth it so ill think about it in the future.
NICE!!!!!! Next project...a bigger, concrete cement lathe like in the 1919s
Nice work opening up a new world with 3D printing. We shared this video on our homemade tools forum last week 😎
Bro, your videos are inspiring. You should have more subs. Thanks for the examples of what is possible with a little imagination. Great work. Maybe if you made something outrageous the algorithm would pump you a bit more.
This is cool! Can't yto see the final
I really hope you used taperd roller bearings in the headstock, otherwise there will always be unavoidable wobble on the spindle.
He clearly didn't use tapered roller bearing as the need to be held under a compressive load to work right. i would guess he used common deep groove ball bearings.
@@markcastonguay7906
That does explain the large wobble of the headstock spindle, whenever force is applied in the video.
A bit of an oversight, really.
Great work man, cant wait to see where you take this thing in the future!
Ever see the video of the guy that makes a lathe from traditional tools and techniques? He literally starts with a bow and string and forms each part as he goes. Absolutely amazing. This project is awesome and I'd love to have this in my printing shop. * Would love to study the STL for this, but can't seem to find it on the Thingiverse page...
Would love to see a version where the concrete is more contained, or the base can be mounted down to a bench instead? Maybe just a printable hand rest cover to cover where the concrete is poured in, so you hands aren't rubbing it occasionally?
Cheap spray clear-coat does the same, it protects the surface and makes it easier to clean and on darker colors it completely hides layer lines even if you don't fully sand them away(generally just scotchbriting the surface to make the clear-coat stick will still see layer-lines gone with darker filaments)
Imagine what you'll be able to make when SLS machines become more common.
Very nice. I love the idea of the concrete to give mass and resilience to 3d prints. Besides the fact that everything in your video is quite professional, I love that you stay humble and realistic on your project. Bravo and I wish you a lot of success in life in general.
Awesome build man! This is something I originally thought of when building my lathe except with CNC control. Your execution is better than myself. Good work!
Are you saving cement? ))) It made sense to make the headstock and bed three times thicker.
the spindle rigidity is something to really work on, but this is quite inspiring
Use a grout bag to add the concrete. Less mess.
Definitely my favorite 3d pronted lathe yet!
Absolutely wonderful project.
Love it! Can't wait to see further iterations.
I highly recommend swapping out regular bearings for angular roller/thrust bearings. Regular bearings aren't designed for the load you're putting on them.
Amazing work. My favorite creator in the 3d printing space.
interesting, though I see bit too much deflection on collet
Wow, impressive. I've been big into 3D printing for about 5 years now, but have always wanted my own little benchtop lathe. I recently bought some books on building lathes from scratch using rudimentary casting techniques, and was thinking of using lost PLA casting, but never considered 3D printing a lathe itself! Very cool, I didn't expect this to work as well as it does.
Droopy likes your lathe
You’re on a decent path, but the runout in the headstock looks pretty bad. It doesn’t seem like headstock volume would be an issue, so I’d go with taper bearings and make it bigger. Also reduce the overhang. Maybe go with a drawbar and collet system. You already have a watchmaker’s lathe with those presumably. I’d also go with a granite epoxy mix instead of concrete. Thin concrete is not very strong.
Dude, just using a bag for the concrete… lol dump it in a zip bag, cut the corner off and pipe it into the slots like frosting. Much cleaner and more accurate, and you can add a milkshake straw to get it into the small areas too.
That mess was entirely unnecessary…. Hahaha but something I’d probably do too if I was too lazy to just go buy bags.
This is amazing. Thank you so much for sharing the files, I am definitely going to be making one of these for myself!
A stylish design! Very retro.
Great job man! Cannot wait to try this. Just be aware that petroleum jelly and other petroleum based products can break down some plastics and rubber components.
Might I make a small recommendation? I see you are using aluminum extrusions and 3D printed plastic for the body of your lathe and steel fasteners to connect everything. I would suggest instead 3D printing the shape of the body of the lathe, and then using it as a positive to make a sand casting mold with. Then you could potentially mill out the portions that need to be precise after casting.
This would allow you to use at least brass, possibly even steel for the body of the lathe, which will greatly improve its functionality.
You can use a relatively makeshift mill using the current designs to do the finishing work on the casting.
Hey, great concept, very interesting! You should check out if you haven't seen it the "Turnado" by Eccentric Engineering, it's an accessory for metal lathe to allow free hand, radius and pattern turning. Uses a flat metal plate instead of ways. I think a diy version is exactly what this type of lathe needs.
I think a version with tapered roller bearings with a spindle that can adjust their clearances and some way to reduce the stick out of the collet holder/work pieces would go a long way. Also I think for the drilling bit (tailstock) you need a more rigid/thicker connection to the chuck and mounting to the rest of the lathe.
All in all I would say it has a ton of potential, great work!!
I love what you're doing with exploring 3D printed concrete forms. I feel this technique is vastly underutilized, and it offers incredible strength and precision for a relatively low effort and cost.
cement mixed with general purpose epoxy resin works amazingly well in this sort of application.
1:45 in, and I feel like this cool project could benefit from 2020 c-channel, instead of two independent 2020 extrusions.
Ive been on the same path as you, good to see the method has some viability. In my experience you really should add some form of fiber reinforcement to the concrete.
Cyano-acrylate glue(super glue) is great with concrete if any fine cracks are formed. It's also good as a surface finish to the exposed concrete parts. This both hinders particles from coming loose and adds surface tensile strength that concrete lacks and hinders cracks to develop in the first place.
Great project I really like it ! Make sure to include also a way to clamp or fix it to the bench!
There's still a lot of play, visible in the video
Very interesting! Im planning on welding a cnc lathe together fairly soon but ive always considered 3d printing one as well. I do wish you had a proper carriage on it though.
masking off the parts you want to keep clean will be easier then cleaning after. true when applying anything thicker than water...
This build seems really accessible, would be a lot of fun to try and make one of these!
Use a pastry tube to feed cement accurately. Use something like Tyvec and just roll it into a cone and cut the tip to the right size.
Only question: why cement and not shot & epoxy? Seems like it'd be cleaner.
Impressive. I have been thinking about a project like this for a while.
I understand if this is just a project in using as much 3d printing as possible but it’s not that useful. Why not strip out an electric drill and make a printed housing for that? It’d be your motor, spindle and chuck all in a much stronger setup. I know this works well because I’ve clamped a drill to a worktop a few times, to turn small parts.
Next project: 3D printed vertical mill.
I really like this and I agree you really need some kind of tool holder and if there is any way to make it slide paralel to the spindle, that would be great, even if it's only an inch or so. If you can lock the tool in place (distance from centerpoint) and then slide, it would make a huge difference but IDK how hard that would be.
I would be almost more excited to see a copying/cloning setup (forget what you called it) so you can replicate the shape of other pieces or at least use a profile guide (which could be incorperated with the slide above!!).
How are the vibrations? Would you consider making the base a little heftier & making a bunch of mounting holes where it could be bolted onto some old plate iron or steel? If you want to add more weight while reducing vibration, what about filling the cavity with lead &/or steel shot of various sized (so they "nest") and maybe fill the rest with sand & then sel or cap the openings. I've heard keeping the material loose is best for absorbing vibrations as the movement is transferred into the shot/balls & the move/bounce (hardly observable) dissipating the vibration while actually generating heat! in large systems this type of setup actually needs active cooling from what I've been told (similar to coal catching on fire while in rail cars from the friction from vibration) - so it must be doing something!
Awesome job!
An interesting idea I just had, if you need precise parts on a lathe like this, you can 3D print flat templates to screw to the tool rest and slide the tool over. It'll require a bit of calibration, but with a pattern parts can be done precisely and, more importantly, reproducibly.
This is really cool! Please, please do upload the files and in a format we can edit. I’ve got most of the pieces to make this sitting around and really want to do my own
Won't petroleum jelly just make all your plastic brittle and ultimately destroy it all?
this is awesome!
This may have been said elsewhere, but it would be great if you could add a couple of flat portions to the base where you could either clamp the lathe to your workbench or secure it with carriage bolts. That should really tamp down vibration while adding a degree of security.
Genius!
Brilliant
Awesome!
Intellegent enough to design this, not intellegent enough to design something to guide the concrete so you don't make a huge mess lmao
Is the concrete desired for its mechanical properties? For rigidity?
The density of concrete (not cement, which on its own is much lighter) is 2400kg/m3 whereas plaster is 2275kg/m3.
I'd go with the plaster for ease of use and possibility of redoing it/chipping it out or dissolving it if there are problems later.
Now make a 3d printer with it and the cycle will be complete.
salvaged stepper motor to drive a lead screw/belt? could be a nice upgrade.
I was not expecting concrete lmfao. It’s actually a pretty good idea, just shocking.
If you can turn pens on it, you can bootstrap your way to abetter lathe if you need one.
Das sieht sehr gut aus, kenne ja schon einige Projekte von dir … wirst du das Projekt auch freigeben zum nachbauen auf Thinki?
Danke für deine Arbeit und Ideen 👍🏻
1:18 I didn't see what kind of washers there were.
Since regular ball bearings have axial play, a little trick needs to be done at this point. The central (or outer) races of two adjacent bearings must be preloaded in opposite directions.
I haven’t figured out how to do this in such a machine yet.
Very impressive
A new challenger in the aluminium pronunciation debate has appeared
This is a cool project and you've yielded some great results. If the "It doesn't replace this" section being at the beginning , it would have made my eyelid twitch less as a hobbyist machinist who takes himself too seriously.
1:48 howtobasic moment
i wanna know what watch is that. i love that beige and orange color
i now need to make my own and push a lego figure into it
Are you planning to make a CNC lathe machine?
Bravo!
Awesome work. Maybe it is possible to use bismuth as the weight? Just pour and weight for it harden....
What do you think about a typical 775 motor in this usecase? Does it have enough power?
Maybe change gear ratio to reduce speed of spindle?
Another question, why didn't you mount the headstock to the extrusions themselves?
You've inspired me to draft up my own attempt at something like this, given my junk pile contains many components similar to those in your parts list....
Help me encourage him to upload his design/files because that would be a brilliant basis for mods and improvements!
More stability, more concrete!😂 You are crazy, so much better 😂
Cool!
What watch was that? It's really cool looking
Awesome video. If it were up to me, I’d make this video an educational standard. Specially tackling the King of Machines, the lathe, of which when created or made is a legacy machine, by default.
very good concept but i would make it bigger and from hardwood
0:14 Good video to plug there
something better than vaseline is a hand torch
I have been making diy machines for a long time. Ive used every matieral known to man. I can tell soon we will all have affordable 3d printed tools. 😢😢😢
3D printed ball-vise mount for lathe when?
hi. What is the name of your watch on your hand?
have u tried epoxy resin or is cement just better ?'