Adam Savage Tours His New Benchtop Milling Machine!
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- čas přidán 5. 04. 2023
- Thanks to Onshape for sponsoring this video. Check out their cloud-based CAD tool at Onshape.pro/Tested
Adam gives a tour of his newly set up benchtop milling machine! Here's how this Precision Matthews mill complements the large Sharp Industries mill Adam uses in his workshop, and how Adam has arranged all his tooling and accessories to be quickly accessible in his new machining setup. How do you set up your machining tooling and operations at your own mills?
Precision Matthews Benchtop Milling Machine: www.precisionmatthews.com/sho...
Gooseneck worklights with magnetic mount: amzn.to/3ZG1eCx
Setting up the new mill: • Adam Savage's One Day ...
Building a T-handle wrench for this mill's vise: • Adam Savage's One Day ...
Shot by Josh Self and edited by Norman Chan
Music by Jinglepunks
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#adamsavage #machining #workshop - Věda a technologie
Thanks to Onshape for sponsoring this video. Check out their cloud-based CAD tool at Onshape.pro/Tested
Precision Matthews Benchtop Milling Machine: www.precisionmatthews.com/shop/pm-728vt-ultra-precision-mill/
Hello Mr. Savage. We met a long time ago, when you were at ILM. You really inspired me. Now, semi retired from Ubisoft as Lead Animator and 3d Modeler, your building and , "Imagineering" has made me the the Artisan, I am today. Thank You. Still have your needle nose pliers and red Pentel, Mechanical Pencil.
Adam, I've been a long long fan of yours since the Mythbuster days. You guys silently brought machining to the forefront of the public and as a machine shop owner I feel we are a bit forgotten as we spend our days in quiet isolation making things everyone uses. To see you shed light into this trade has inspired me and I'm sure many others to take on machining as a career. We as a country need people who can make things and use these pieces of equipment and tooling to keep our pride of things made here in USA. I've got plenty of years ahead and I hope I can continue doing what I enjoy. Other foreign countries has made it difficult for us to compete due to cost of labor being lower overseas. I'm glad your video came up on my feed, keep carrying the torch and be a light for others in the trades. Warm greetings from SoCal. -Casey
Have you thought about adding a pneumatic foot valve to trigger the compressed air so that you do not have to take you hands off of the hand wheels?
and having the blower mounted on a gooseneck aimed at the center point blowing to the splash back
Generally while you're prototyping and machining by the seat of your pants like Adam does you have a chip brush that you use. The classic chip brush is a 2" China bristle brush. You buy them by the 3 dozen and just kill them.
This press has worked like a charm for my projects czcams.com/users/postUgkxajoEbapTfqWaadnqb04h6U576yxXp-FE . I didn't even secure it to my table top, mainly due to the fact that I was using a 15 lbs drill vise. It's not flimsy at all as to what others have claimed it to be. Make sure the locking nuts and levers are secured and there won't be any issues with light pressure and patience. I was able to drill through aluminum, plastic, and steel (steel took a while) with no problems at all. Yeah it took a little longer than a regular drill press, but I don't have the space OR the money for one.The instruction manual was worthless, but luckily assembling the press was intuitive. However, the manual would be good for ordering replacement parts if needed. There is a nice breakdown of the parts that are included in the kit. Before ordering, make sure it is compatible with your unit, it is clearly stated what models the press is compatible with.This was an excellent purchase for $40!!
Quick tip for metric tap drill size. Subtract the pitch from the dia and you have your tap drill size. (M6x1.0=5mm drill)
Thank you, bless you for this.
I've worked in machine shop for 40 years and didn't know this, I just checked it on my Starrett chart and by god it's dead on! Thank you for teaching an old dog a new trick.
This tip is true only if you want a 75% thread, which is prescribed for common soft materials, but you wouldn't want to use this method for harder materials.
For example a M6x1.0mm tap would required a 5.2mm or 5.4mm drill if you wanted to tap stainless.
@@paulblair898 thanks for the reply, I might be drilling my stainless parts too small then. They are always a pain to tap.
@@Sean-ib7pd I'd take any advantage I can get when tapping stainless, it loves to work harden and then eat taps.
You have just demonstrated the most expensive and most precise etch-a-sketch ever made.
not a single air bearing, and several hundred thousand dollars shy on precision and cost. That being said, it is a VERY NICE etch-a-sketch. I adore my 727M, and have for years. I tend to think of it more as my most pimped out drill press though, since that's it's most common task.
I dunno, a nice big CNC using a manual control panel could be a pretty expensive etch-a-sketch ;)
Not even close.
Good luck with shaking it over your head! 😀
Since I am single, I replaced my living room furniture with a modest size mill and 12 x 36 lathe. Sometimes life is good!
I have the little cousin to this mill... The Sieg X2D. It's honestly a great machine. I've made lots of good parts on it, and can usually hold +/- 0.001 or so (if I'm super careful). I've added DRO scales, and use TouchDRO for the display. I've upgraded the spindle bearings to angular contact bearings, and swapped out all the plastic gears for metal ones.
I've been using the Tormach TTS tool holders for a while, and absolutely love them. Having quick-change tooling on my mill is a quality of life upgrade that I can't recommend enough. No more changing collets! Plus, they're repeatable, which is amazing when coupled with the tool library in TouchDRO. I've even made my own TTS-compatible tooling.
Always enjoy seeing, and sharing, your enthusiasm for making things, and for the tools that you use to make. I've made a few videos of improvements to the machines in my shop, and it would be amazing for you to check them out.
The other nice thing about benchtop mills is that it’s easier to follow or cut tapers because it’s easier to manipulate both axes at the same time since the handles are closer together. I have a 4” machinist vise with an angle plate that I’ve found to be useful. I use a cordless 3/8” ratchet for a power drawbar. I had a gunsmith mentor that encouraged me to buy this machine first since it will do a large range of jobs and even if I needed a larger machine later, it won’t replace this one.
I got the exact machine 2 weeks ago and I have used it everyday since. I also own a PM 1130V Lathe. Great stuff.
Nice mill and good video.
It’s a blast setting up a new mill, one of the things I learned very quickly when I set up my work area is that chips go everywhere ! Especially if you use air to blow away chips ( which I do also )
Problem is that the chips end up in your collet rack and your hold down rack and it becomes a chore keeping things clean.
I found that setting these items under cover or out of the chip zone is a small price to pay in order to keep your tools clean.
P.S. you ask 5 people how to do something and you will get at minimum 5 different answers, lol
That could be clear plastic cover. So you can see what you want.
I have been shopping for a bench top mail for two or three months now, and still had not decided until I watched this video. I’m very intrigued and the smell and I’m leaning toward getting this one.
Thanks as always for a great video
Cheers
Awesome!! I've been wanting one for years! Thank you for the insight into your machine. I do love the idea of lights inside of cabinets too! 👍
You don't need excuses for a new machine dude, we want more too
Thanks, Adam, such a good video. I have a Smithy 1324, twenty years old now in my crowded basement shop, and if I had it to do all over again, I would incorporate this mill into my shop with a standalone lathe. R8 collets are an important touch, and you've done a good job accessorizing the mill.
I just bought my first mini mill from little machine shop. It was great seeing some of your custom mods. And we have the same vice! Haha
For metric threads good rule of the thumb is that the pilot drill is the size of the bolt minus the pitch of the thread like for M10 thread the pitch is 1.5mm so pilot drill for it is 8.5mm
Yes, it’s logical and super easy compared to inch sizes with all their secret codes like an #8-32 screw and a number 29 drill, and don’t even start on letter drills!
@@emmajacobs5575 but if you don't memorise it all you're "not a real machinist"! ;)
@@mattagnew206 haha
My dad had a logic textbook that said, (in part), when you're looking for something you've lost, turn on all of the lights. Building lights into the spot where you're looking seems like a good proactive step.
If you ever want to find an a small item on the floor, lay a flashlight on its side on the floor and shine it around. Not only will it show you exactly how dusty your floors are, but you'll almost always find that tiny item. Doesn't work on thick carpeting, however.
@@sundaynightdrunk What if I'm looking for the thick carpeting?
@@PlatypusVomit
😃👍
I am just on the edge of watch repair, coming from carpentry and custom liquid computer building. I got hooked on the work of George Daniels, Breguet, and many of the pioneers of Horology and Watchmaking. I hopped freight trains through California after oil rig work in the early 2010's, so I immediately fell in love with railroad grade watches. I have a few crude tools salvaged from scrap, some fine preision tools, and some antiques that feel like they carry more character than your average politician. I am looking to aim for a custom watch eventually, so videos like these are invaluable to get a feel for equipment while seeing them operated by someone as passionate about the workings of things as I am. Thank you to all of you the produce this content, and those who make it popular:) Happy Making!
Amazing, I really want to buy one of these machines! Keep up the great content!
I especially enjoyed this video, THANK YOU! My better half presented me with a small bench-top mill for my birthday from THE LITTLE MACHINE SHOP over in Pasadena. Thankfully it has a 3 axis DRO which makes me seem to actually be fairly good at cutting what I intend! Watching your videos along with CEE ( Cutting Edge Engineering ), Blondihacks and others I have gotten a good jump-start on how to use the machine! As with my old Atlas/Craftsman lathe, it seems that you can never have enough different tools to plug onto the machine!! Of course, the best part about the videos is catching on to the hints and kinks of how to easily do the otherwise seeming impossible things!!
You should get a set of screw machine length drill bits for your small mill. They are about half the length of standard "jobber" bits
You will soon find the headroom to be a little bit of an issue when using drills,the length of the chuck and the jobber drills makes it pretty tight. Screw machine drills come n very handy( plus they are more rigid) Little Machine Shop sells a lot of accessories sized to bench top machines.( 4” rotary tables etc)
Ran multi spindle 4,6,8, spindles acme gridley,conamatic, wickman @ Black and Decker Hampstead Md. In the 1980's. Sharpened a million drills by hand. Made chop saw gears. Ran 4 machines at the same time. A screw machine 6 inch collets, a barber coleman gear shaper to shape gear teath, a broach to put keyway in, and a deburing tool to debur back of gear inside diameter. Got tool and die pay. New Bridgeport son😊
You need a copy of the Machinery Handbook. Has every reference table you could ever want.
I don't know if it was mentioned in previous posts, but that kind of vice is designed to have the screw clamp the jaw in a 45 degree angle. so that you are putting the same pressure down on the vice be the same as the material clamped. the more the angle changes from the 45 toward 90 degree the more pressure you put into the vice and not the material being held. the less than 45 degrees then more to clamping in the material but it does not hold it in the vice as secure. I hope that helps you in the future of using that vice.
Thanks Adam!
Looks like a fun little mill.
13:40 “The light taunts you!” So true.
It looks like the door to the pedestal cabinet is reversible. You might consider flipping it so that it opens at the front, so you're not reaching around the door to get at something inside.
Yeah, I was a bit surprised seeing the door open to the side, mine opens to the front (have a couple vids on my channel on my milling machine setup).
Very clean, very sanitary, very well thought out. Wow. I think I can learn things here.
My mill had push buttons for for/rev, they were hard to tell which one was pushed and easy to push the wrong one. I wired a used back up horn from a fork lift to the reverse button. The horn is sealed inside the box so as to not be too loud. The odd time I use reverse I actually get a chuckle from the "back up alarm".
I've done the same on a knee mill, except with a blinking LED (panel-mounted next to the REV button) instead of a buzzer. It's good to have a reminder before you turn your 2-flute end mill into a no-flute end mill!
Do you ever actually have to utilize the reverse?
@@tevinvezina1766 i use all the time when power tapping
@@tevinvezina1766 Rarely but when you do you're glad it's there. Mostly it's for clearing a jam or unwinding some accident. Backing out a tap. I've never seen a reverse cutter or twist drill but that does not mean they don't exist.
@@Guranga93 Ahh I see! I’ve only ever hand-tapped so I didn’t think about that possibility.
I heartily second the direction switch issue. I created a 3D printed "lock out" for my PM728 that screws onto the bottom right of the control panel and physically prevents reverse unless I unscrew it. Trashing two 1/2" carbide end mills with accidental reverse was getting expensive fast.
I'm consulting my crystal ball and I'm foreseeing an upgrade to the benchtop mill, adding a permanent air nozzle to clear chips constantly. 😀
Great Work Mate!
I really like how you explain all the acronyms for people that might not know.
Love my precision mathews PM-728VT. It’s converted to CNC but it’s seriously served me for years now
Great video, Adam. I love that vise.
I always mounted the clamping accessories on the side of the mill so they are eye level when setting up for a job.
You know how to reverse the switch, and it’s your mill. Go for it!
PM used to sell these already made as CNC's I have one... ditched the Mach3 controller and switched to UNCC, very versatile and customizable. I've added automation features to it. I want to buy another one as a pre made CNC... hope they offer CNC again.
This is fantastic!
You could put the clamp assortment on a swing arm so it can be seen when needed and out of the way other wise.
In the Sharp (and Bridgeport and all clones) Forward or Reverse depends of if you are in low gear or high gear.
5:03 Definitely swap your Fwd Rev selector switch action to match your memory.
While you're in there you could pop in a Bourne 10 turn potentiometer or equivalent if you would prefer finer speed adjustments.
Picked up a Grizzly mill G0704 and lathe G0752 late last year. Been machining ever since. Once you work the kinks out and install a few upgrades and improvements the machines are excellent and produce quality parts.
Make chips!
Hey Adam! Couple of useful formulas for you
Metric tap drill size = dia - pitch
Ex m8-1.5 = 6.5mm
Standard tap drill = dia - 1/pitch
RPM = cutting speed (in sfpm) x 4 / dia of cutter
Example: cutting speed of mild steel is 100 so
400/.5" cutter = 800rpm
They also taught us in school that compressed air can damage the precision ground ways on the table and cause innacuraces but not sure how true that is lol
Cheers :)
Adam should get some of those flex hoses like he uses for his camera arms (only smaller ones) and put an air nozel that can blow chips away continuously
Have you considered setting up your air nozzle like your light with a foot pedal. That way you could blow off your work and leave your hands free to work the axis.
nice little mill
Totally awesome dude
What about setting the clamp holder kind of inset and adding a light so you can see them while your there?
It would look good and they’d be out of the way.
My mill is similar, other than for power tapping it always is used in forward. So leave the switch in forward and turn on and off with the red and green on off buttons. Wont be an issue anymore.
One added feature you might want to integrate is a small airline that has a ball valve or something to that effect which sits alongside the cutting head to constantly keep your work piece clear without having to blow all the time or intermittently stop to use the air hose to clear the work space
Awesome stuff!!!
Very nice mill, I'm jealous!
Adam over here working with white oak 2x4s!! love it
You could create a maze for ants very easy. :D
BTW, it's good to tighten the vise only a little, tap the workpiece down, tighten a little more, tap again, etc. to make sure it's parallel to the vise bottom.
I bought an ancient mill recently, it's not set up yet as i need to weld a base for it and a VFD. It has an old car transmission on it to change speed, the VFD will improve that i guess.
Something just so satisfying about welding up a hex t handle wrench. I have 2 of em.
I don't have a milling machine, plan on buying one soon . So thank you for showing me how you set one up.
It is all in the set up, or so I'm told.
I've just ordered the 727V, won't arrive for a couple months though!
Grate update. I'm jealous an want one.
That's really neat.
That vice is sometimes tricky to use. You have to get the crossbar into a detent before tightening, otherwise it can slip. And it also has to be loosened a bit to clear the detent so you can easily move the jaws.
Don't loosen the bolt too much, the crossbar can fall off.
LOL......I have one of these grinding or toolmakers or screwless vices and after a while I almost threw it in the bin it was so frustrating with the nut (crossbar?) at the bottom not engaging in the cross slots or dropping off the screw when wound back.......after a mod it now performs like a dream and second to the DRO is my most treasured mill tool.
BTW.........better make a back panel to prevent the blown swarf from coating everything in the shop especially if you use coolant on steel.......with coolant use you will rapidly get mucky corners and everything else covered in oily residue.......that's par for the course unless you only use carbide tooling and forget about coolant.......I use a portable hand vacuum to clear the swarf instead of blowing it around the shop.
@@gangleweed Turn the air pressure down to 20-25 psi for starters.
@@gangleweed I don't know why people constantly use air to remove chips. I use a shop vac and it works just as well. Using air just means you're creating 3 or 4 times the work when you have clean it all up later on.
The only exception is if your machine is in an enclosure. I use air all the time at work but its a swiss lathe in an enclosure with a built in mist remover. At home I use shop vacs almost exclusively.
I took mine off and installed a 6" low profile vise.
I think that milling vice could do with some more clamps to hold it down, else i reckon it could move under the cutting forces.
Agreed. I'd have at least two on each side, unless he's milling really small and delicate parts but it's easy to under estimate just how much torque and forces are applied when machining even little parts. I quickly learned that at the beginning that even when you have a vice clamped down VERY tightly, the mill can still easily shift it even under relatively light loads. Just goes to show how large of forces are transferred from the cutters to the work piece.
I think he'll soon add another clamp on each side because that vise is bound to shift on him at some point.
What about cooling fluid reservoir and pump? Probably need that someday.
Love your vlogs! Huge Fan.
Scotland made it in first yeah!
how does the mill fine feed drive the dro?
Separate scale on the front of the mill. Not the larger DRO.
It's a Precision Matthews. You'll love it!
could you just re-label the direction switch on the mill for forward and reverse? Or is it the physical direction of the switch that is opposite?
That is exactly my though. Why take apart and rewire a brandy new machine!
That motor controller has a label on the side that says it's 120v single phase.
That tells me that it's a VFD outputting 3 phase to the motor of the mill.
Instead of needing to do something overly complicated like rewiring the switch. All you need to do is swap any two of the 3 wires that go to the motor. It will change the direction of the motor and effectively swap the operation of that fwd/off/rev switch.
Wrong , if the vfd has any type of encoder in it it will break since the drive will expect the reverse
I know, I know, but I can't help but point out that ALL the problem with parALLel is in the middle lol.
Thanks so much for the excellent entertainment you give us - please keep it up!
Most makers spend all their time and money on making and only a small fraction of time and money on shop infrastructure. Adam is the opposite.
I'm still new to tools and making. What's the difference between a mill and a router?
Great machine sir
I am insanely jealous of your shop!
Was hoping you would make this video!
Anyone know if the automatic draw bar setup is available as Adam has it shown? I can find the paddle triggered Neiko impact gun, but that pull down, mounting plate and impact fixture would be good to source without having to fabricate everything from scratch.
Adams got a new watch on,he use to wear an Aqua Terra ,Omega ,very nice watch and lived the fact that he'd be working,keeping the wstch on,a proper sturdy watch.
Just wondering if you need to keep using air supply hoses to blow away the shavings would it be easier to have an auxiliary one on an arm in a set position you can then activate with a foot pedal so you don't have to stop when milling?
Rewiring that switch is worth the effort. It's nice, and safer, to have all your tools operate the same.
Hello Adam,
To reverse the motor I would avoid rewiring the switch as it is a rather complicated setup.
There is a good chance the DC motor was wired in reverse at the factory.
It is easier to reverse the two wires from the motor on the control board.
Being a DC motor this will solve your problem.
Regards,
David
Dalgety Bay
Scotland
That's some out of the box thinking. Great idea!
Flip the knob 180 degrees on the shaft. That makes the bottom of the knob the indicator, and it will point to the right for 'Forward' operation. Or make a little lever and install it in place of the knob.
The lever thing is what I would do, a bar with a cutout that the top of the knob fits into and then with the lever below the knob it would be natural to move it right for forward and left for reverse.
Flipping the knob won't change the shaft rotation. And yes that mill is bass ackwards. I've seen ratchet drives that swap forward and reverse too. It's maddening.
Do you have a source for those tiny 1 2 3 blocks? Sweet mill.
What do you use to de-bur them?
Love this guy…ever since the running at the glass high rise window when they use the “busting myths with science” intro ✌️💖&💡
Can you link the power drawbar that you bought from eBay ? There are many and I guess varying quality
Put the clamping setup on a swinging shelf that locks to the mill base so you can have it there or out of the way if you need it
You may be breaking small endmills easily because you're not running them at a high enough RPM. An 1/8" HSS endmill should be running closer to 3K rpm in mild steel, but since it was carbide 6K should be no problem. Always do the math for cutting speeds and get as close as you can.
The first thing I thought of when you mentioned the 'forward/reverse' switch was "Why would they do it like that? I would open it up and swap the wiring". Right there with you, Adam. Next, you might want to integrate some type of waste collection. Just sayin'
Hopefully you can change the "speeling" on your parallel holder. It should be "PARALLELS" - LOL!
Love the review Adam. I wish I could afford that mill. I got a HF mini mill that works well.
Adam gets so much gifted swag
call me green.
But he will use it !
and inspire !
Aha, immediately noticed the forward/reverse thing as well, glad I'm not the only one who would be tempted to rewire the machine to fix it
Love your channel. What a neat benchtop mill. BTW, check the spelling of parallel.
We’re do I get that power draw bar? Did he make it or buy it? What is the video he shows it off at?
Tell me more about power draw bar please. Ie which model and where from
The great thing about metric is that you don't need a chart to look up drill sizes. Just subtract the pitch from the diameter.
Yep, those poor Yanks and their old Imperial system. Metric just makes it simpler. I do hate it when someone pinches a drill from the 0.1mm precision mill drill set for rivet holes or other simple stuff.
@@babbagebrassworks4278 We can't help it that you can't use fractions or read a chart.
I don't need a chart for tap drills. I just go in my tap/drill index and remove them. They're paired together. No thinking involved. Its even stamped on the drill and tap.
Can you please tell me why people who don't use the imperial system are always complaining about it and saying they don't understand it? Why must we conform to what you want?
Bench top, ummm yeah!😁
Enjoy, Adam!👍🥰
Mike in San Diego.🌞🎸🚀🖖
Can the mill be rotated 180 degrees on the stand so the door opens in a more optimal direction rather than having to reach over it?
It would be easier to rehang the door before moving the mill around. You are right about the awkward open and reach over situation with the door in its current configuration.
The door is made to hi ge from either side. Holes are already there.
A small piece of advice, it is much easier to control movement with the correct speed and feeds, recommended speed for 4140 steel is appox. 6000 rlm for a 3 mm cutter with good rigidity so here you could easily run at 4000 rpm
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Where did you get a piece of Richlite that thick?? I NEED