2016 Is the Year of Buying CNC Tools Instead of Building Them

szczys writes: We have reached a turning point in personal CNC Tools like mills and laser cutters. Up until now, your options were to drop some serious cash (businesses) or spend time to build them yourself (individuals) at moderate expense. But over the last year the number of companies making CNC tools and the software available for them has matured. Anyone looking for an entry level machine in the coming year will find that purchasing equipment has a better time/price value than building yourself. The best part is, these entry level tools have the precision you need if you still want to build your own high-end or extreme-spec machines.

Re: Hmm

[LoRdTAW]

My company sold a pretty nice knee mill for scrap which was only a few hundred. We also scrapped a few hundred pounds of tooling like chucks, vices and other holding tools. Sad day.

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[Rei]

Seriously? Wow, I should add CNC machines to my bland.is (Icelandic craigslist/ebay) search list. I've always thought it'd be great to own one but the price tag for a new system has always been astronomical.

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[delt0r]

Prices of even new CNC mills and lathes has recently (last 10 years) come down massively. 20-30k can get a decent small working volume machine new these days. Even the extras, like end mills are way cheaper now. It is already at the point where it can be cheaper to get your own for small volume rather than outsource it to machine shops. Assuming you have the in house expertise.

My problem is space. My last mill and lathe was in the inlaws garage which is now full of junk.

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[Rei]

There's a big difference betseen $20-30k (which I don't have) and a few hundred dollars + a pickup (which I do have). ;) I don't have personal experience with CNC mills but I am the sort of person who regularly takes up projects building / modifying things (often metal) by hand, and I'm a programmer, so given the two I doubt I'd have trouble learning.

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[Rei]

I suck at welding too, although I think my 1960s MIG welder is partly to blame. Or at least that's my excuse ;) And I have to admit that I too have some amateur rocket concepts myself that I'm really itching to try, though I need to retire a few existing projects first. I've got one rocket concept that I'm working on simulating in OpenFOAM involving a caseless LOX/aluminum/paraffin/polyurethane rocket that burns itself up in its entirity. First the channels of open-cell polyurethane foam saturated with L

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[delt0r]

I can a get a 15 ton (metric) truck with crane from anywhere in this city to anywhere else for about $500, including pickup and delivery. The problem is here is not moving it. It is the space on the factory floor.

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[serviscope_minor]

Seriously? Wow, I should add CNC machines to my bland.is (Icelandic craigslist/ebay) search list. I've always thought it'd be great to own one but the price tag for a new system has always been astronomical.

It probably wasn't CNC and if it was being scrapped it probably wasn't even DRO equipped either. Not to say it wasn't a good, solid machine, but it was probably large, heavy and awkward to use. That said, CNC retrofits are available for old mills, though they're not cheap. Probably worth it if you've got

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[KGIII]

This may make you want to hit me. I understand. Let me see if I can type this out properly.

Last spring, I bought an Axiom AutoRoute Pro (8 - I think?) along with the stand and a bunch of stuff to go with it. It's still sitting in its crate with a bunch of boxes of stuff that goes along with it. It comes with a stand, a giant tool box, and a bunch of other stuff.

I understand that there's a kit to do laser cutting and engraving and I think I might have that with it - I've never opened it. I seem to recall tha

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[rthille]

I still have to work hard to restrain myself from buying stuff like that. I nearly got myself a $3500 Boxzy.com CNC/3d-printer/laser-engraver, but managed to resist and instead just bought some more cheap electronics project stuff (total ~$100).

Not sure why/what changed in me/life but I don't remember this urge to buy stuff to do projects in the past. In the past I had more time and less money I guess, so I just did the projects I could afford to do, rather than spending small amounts of time and large amo

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[KGIII]

Yeah, I got extremely lucky and was able to retire at about the age of 50. It's almost as if, "Hey! I couldn't do this when I was a kid! I want this toy, I promise I'll use it!"

They say that when you have the time you don't have the money and when you have the money you don't have the time. Except, well, I have both the time and the money and there doesn't appear to be an adage for that. I'm not sure what happened - I went from being a "maker" (when such wasn't a thing and the resources were far more diffic

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[rthille]

If you are looking for something fulfilling to do, you might think about setting your shop up as a maker space to help educate disadvantaged kids...

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[KGIII]

That sounds great but I live in a town with 0 kids. I don't even live in a town - I'm in an unincorporated township, about 24 miles from a small village. The village does have a school and I provide them with lots of goodies. They're cute little buggers and invite me to their plays, concerts, and games. In return, well, I've outfitted the entire school with iPads, netbooks before that, and will probably do the Macbook next time around. (Apple gives a pretty decent discount - I've interacted with them before

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[davester666]

breaking the contract? you're supposed to be here all week!

CNC

[PNutts]

CNC: Computer Numerically Controlled

Aren't we labeling sponsored content?

[fermion]

Not sure when indivuals built CNBC machine. Unlike 3D printers, the milling machine actual can cause. Lot of damage if they break. I also know they have been inexpensive suite case units for at least a decade., say for $2k. They require some skill, so not as popular as the 3D printer.

Re:Aren't we labeling sponsored content?

[willy_me]

When milling wood or modelling board (plastic composite with the approximate density of wood), CNC machines do not require much power. Potential damage is greatly limited over industrial machines that can mill steel. Home builds are practical and people have been doing it since before 3D printers were popular. A typical use-case for a low powered machine is to mill moulds. These would be used for plastic moulding but you could go another step and cast metals as well. Quality wise, there is really no comparison to most 3D printers. Try browsing the Guerrilla guide to CNC machining, mold making, and resin casting [coredump.cx] to see what can be done. It is very impressive.

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[phantomfive]

Wow, 3D printers get all the attention, but cheap CNC machines are probably a bigger deal.

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[Rei]

Most professional 3d printed metal services actually 3d print molds and then do lost wax casting. They also usually do finishing work too (metal or not), such as sandblasting and the like. The resulting quality is generally superb.

Your average home 3d print? Not so much...

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[Rei]

Note that that's "most" but not "all". There are of course laser sintering systems, but prints from them are usually very expensive because they're very expensive. Also laser spraying / thermal spraying systems, but they're new and rare at this point. Another technique sometimes used is printing out a model comprised of metal grains inside a plastic matrix, heating up to sintering temperatures leaving a porous version of the object made of the desired metal, and filling in the pores with a lower melting po

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[thinkwaitfast]

I've been saying this for about 10 years now and have collected a few machines. Just last week I was looking at buying a g0704 due to its large user base. Manual machine is ~1.2k$ new and a conversion (diy) is probably another thousand.

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[serviscope_minor]

Wow, 3D printers get all the attention, but cheap CNC machines are probably a bigger deal.

Um, did we just read the same article? Don't get me wrong, the small CNCs are great and are substantially better than many 3D printers for precision, did you see the amount of work and cost involved in actually getting something out compared to 3Dprinters?

They are substantially harder to use (require precise datuming for every tool change, careful tracking of tools, much more careful cleaning, substantial fiddling with

Re: Aren't we labeling sponsored content?

[Threni]

I've never understood the fascination with 3d printers. Seems like an awfully expensive way to make cheap looking Christmas cracker toys.

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[NormalVisual]

Milling metal, even something soft like aluminum, will still result in razor-sharp chips getting everywhere. Cleaning the machine and your work area is something that will require some care, and heavy gloves because those chips can cut your hands to ribbons if you're not careful.

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[evilad]

They aren't razor sharp.

Source: Have owned a Taig mill for years, have not cut myself, am not particularly careful.

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[mlts]

I wonder about lubrication. A lot of the mills I see need to hose down the piece with water or some other lubricant to keep the metal cool. Is disposing of the water with all the metal bits in it something that is a major concern?

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[davester666]

I would think 'real' CNC's would use some kind of cutting oil that is filtered/recycled in the machine itself. And even if you did just did a once-through setup with water, you'd be an asshole if you just fired it down the drain. At the very least, you'd filter it to capture the metal for recycling [as it's worth money and if you've got a CNC machine, you are likely using it a bunch, so you'll have a bunch of scrap metal].

Time Warp

[jtara]

Where have you been for the past 40 years or so?

OK, let me actually read the article, and see WTF they are talking about vs. the almost certainly misleading post title... I suppose they mean, like "personal CNC"...

Oh, I see. We're talking about "desktop CNC printers" and "hobbyist CNC Mills".

Is it really that hard to come up with a title that expresses that, or at least include it in the body of the post? No? Too much to ask?

The reason I ask is that you've been able to buy CNC tools easily for the past 30-40 years or so, if my memory isn't failing yet. Because I remotely remember writing Z-80 code for the first microprocessor-based CNC controller a long, long time ago! (They were all minicomputer-based before that, and mainframe going even further back. BTW, Allen-Bradley bought the company that I wrote that code for...)

So, yea, the only people buying CNC machines back then were GM, Ford, Chrysler, Boeing, their suppliers, etc. etc. etc.

The truth is, this could have happened in the 80s, if only there had been Harbor Freight! Z-80's were certainly affordable to hobbyists. What didn't exist - I don't think - was decent, affordable, small mills. No reason it couldn't have happened were there a demand.

So, the excitement over 3D printing is past, and now people are realizing that there are CNC mills too?

Did we have to wait for affordable, powerful processors? Funny, that 4mHz Z-80 could run a 5-axis mill, with the position loop(s) running in the Z-80 (not in the specialized hardware used today.)

I wrote the code for those position loops. And counted every machine cycle by hand!

So, yawn. Big breakthrough.

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[NormalVisual]

What didn't exist - I don't think - was decent, affordable, small mills.

That, and the widespread knowledge of how to run the axes safely (accel/decel curves and whatnot) without tearing things up. I was in a similar situation as you, but with laser marking/engraving machines. The desktop laser machines of today, while useful and wonderful to be able to have on your desktop, still don't really compare even to the industrial machines of 20 years ago. Moving the beam with a cheap pair of steppers is quit

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[Krishnoid]

And counted every machine cycle by hand!

Uphill, both ways, in the snow!

[Sorry, no mod points, so replied instead]

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[AJWM]

Yeah, Sherline [sherline.com], for one, has been making desktop CNC mills and lathes for years, and they even sell them together with a computer. Prices in the $2k to $3k range.

I have no idea of the quality, since I don't (yet) own one, but they look pretty good from my research over the last couple of years.

This is a wild guess on my part, but I think the popularity of 3D printers helped bring down the prices on reasonably sized stepper motors, as well as the cost of the electronics and software.

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[thinkwaitfast]

I have a sherline 2000, bought it to learn with. It's ok for small stuff but low powered (400w), so don't expect anything fast. I did my own cnc around 95. Stepper motors were cheap then, I don't think 3d printers had much of an affect on pricing; all of the motors that I have are infinite overkill for anything resembling a 3d printer.

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[AmiMoJo]

We are still taking thousands of Euros / dollars for these things though, so it's not that big of a deal. The cheap ones suck so much they are useless and not worth it over just using a cheap laser cutting / CNC prototyping service.

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[drinkypoo]

We are still taking thousands of Euros / dollars for these things though, so it's not that big of a deal. The cheap ones suck so much they are useless and not worth it over just using a cheap laser cutting / CNC prototyping service.

You can get a used 2.5D vertical mill for around $1500 (often with some tooling, even) and a CNC kit for around $200-300 including controller and steppers? You can have your own pro-quality CNC mill for under two grand. You just need room for it...

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[thinkwaitfast]

I follow a number of machinist web`sites and the general consensus is that upgrading a manual mill for doing any real work is a waste of money and it's better t spend $20k on a real machine. In fact I read this by a number of people this morning.

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[mlts]

Back in the early 1990s where CNC mills were not cheap, but inexpensive enough for smaller companies to spend money for, there was a time where there were many, many bicycle parts made out of CNC machined aluminum, usually anodized very funky colors as well. This lasted for a few years, but then Shimano and the other brands went to drop-forging, which allowed for more long-wearing components, especially on the drivetrain. This, plus the move to titanium and carbon fiber caused CNC machining to fade away i

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[dunkelfalke]

Fade away? There is still a shitload of colourful CNC bike parts around and some companies (like Hope Tech) make most of their parts on CNC mills.

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[thegarbz]

So, yawn. Big breakthrough.

The breakthrough hasn't been in the processors. It's been in the ease of creating something cheap that does a good job. You wrote code for position loops? Congrats you've just ruled out 90% of the market because you wrote code yourself.

The rise of the home manufacturer has created a great array of open source and easy to use software. The relative modularity of devices has created an ecosystem of cheap plug and play clones for this stuff.

None of that existed even 5 years ago let alone 40.

You can keep your l

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[jtara]

You wrote code for position loops? Congrats you've just ruled out 90% of the market because you wrote code yourself.

To clarify: I wrote the code for a company. (Omicron Systems.) Allen-Bradly subsequently bought the company, to start their first line of microprocessor-based CNC controllers. (Before that they had used HP minis). That code is many of those 80's and 90's CNC controllers...

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[NormalVisual]

I think that their will be more competition in this area in the future and I'll be able to get what I want

I hope so, but I don't think there's going to be a quantum leap in performance with the laser machines until you can get a decent beam-steered galvo head + flat field lens for under a few thousand bucks.

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[guruevi]

There are some Chinese vendors that you can get a sub-$2k laser cutter from. There is a guy somewhere that sells a board that converts them from their proprietary software to a generic open source friendly printer driver. They aren't the best (I think it's a 40-60W laser) and require some work (cooling system etc) but they are darn cheap and relatively precise for most prototyping.

Renting the things (even 3D printers) is still the best option unless you are a business or want to rent it out, I have access t

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[Rei]

I'd really like to buy an Epilog laser but the ones that I'd want are about $26k, which is pretty expensive for a machine that isn't going to be used to make money

Then make money with it. I recommend 500 yen pieces - they're only 7 grams each (a bit more than a quarter) and worth nearly $5. The right mix of melted down pennies, nickels and copper scrap should give you the right alloy. In Japan you can buy almost anything in vending machines, so just make sure your coins past the electrical conductivity t

Gotta pay the bills somehow I guess

[Slugster]

It seems like Hackaday is just throwing a bone to the places offering turnkey mini CNC machinery.

You can still get a bigger machine cheaper by DIY-ing it, but that depends on if you have more time or money really.

That, and the fact that with CNC {metal} machining,,,, it really isn't possible to get a fast & accurate machine by bolting together pieces of t-slot beams. (I don't think I've seen even one you-built-it CNC router that used ballscrews).

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[jgtg32a]

Please tag parent as troll, the link
http://www.alibaba.com/showroom/silicone-sex-toy-making-machine.html

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[Rei]

Out of curiosity, does anyone ever DIY aluminum extruders? I'm curious as to how hard that is.

No, Don't.

[BrendaEM]

We are seeing a massive surge in progress in many computer controlled machines, so why shove it back in the privatization jail?

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[mlts]

What my fear is, is that hobbyist CNC mills wind up like CarveWright machines. You wind up paying a few grand for the machine... but, you have to pay dearly for additional software, DRM-protected templates, special memory cards, special readers, and other proprietary crap.

This may be a working model for IBM mainframes, but as consumers, we need to fight tooth and nail so this doesn't happen in other industries.

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[thinkwaitfast]

All necessary software runs on linux (real time) and has for over a decade.

http://linuxcnc.org/

Still better to outsource

[petes_PoV]

At 2-3k for a "home" milling maching, it still doesn't make sense to buy your own. Far better to design your project and have a local shop fabricate your pieces for you. Whether that is by plain-old hand crafting or CNC-ing is immaterial, so long as the pieces fit.

The actual number of home projects that the average "maker" will complete in a year makes the cost of buying your own machinery very expensive, when you amortise the cost of the equipment (and the learning failures) across the number of successes. However, since with many "makers" the actual hobby isn't having and using the end product, it's the joy and anticipation of buying new toys and the fun of playing with them - any actual working pieces are simply a side-effect, then more toys is the way to go!

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[wonkey_monkey]

At 2-3k for a "home" milling maching, it still doesn't make sense to buy your own.

That depends how much money a person has.

Indivduals/businesses

[wonkey_monkey]

Up until now, your options were to drop some serious cash (businesses) or spend time to build them yourself (individuals) at moderate expense.

What's with the stuff in parentheses? Why can't an individual "drop some serious cash"? And why can't a "business" build their own at moderate expense?