High resolution machinists jacks

This was one of those moments when as soon as I understood how it worked I just had to take a step back. This is definitely one of those special clever ideas. One that is simple but highly effective.

The power of differental is under utilized in so many ways ... Location, force, speed, electronics, hydraullics, etc..
Nice practical use.
And perhaps an even better demonstration of differental potential elegance in design.
Very nicely done.

Such a elegant design 👍👍

This is such a clever and powerful design. Especially given most of the components are off the shelf parts. Probably like most people watching this, you've got my gears turning on how else this could be applicable. Great idea and thanks for sharing!

a 1/4" ball in a 6mm hex and the inch->metric adapter for an off-the-shelf differential thread are two ideas i'm /definitely/ stealing for future use

Wow Adam. Amazing design and selections of parts.
It takes a smart person to build something that does a specific job but it take a very smart person with tons of experience and a deep understanding about how things work and how things are made, to transform something very complex and expensive into something so simple and low cost. Congrats for the design.

Excellent shortcut for getting ready-made differential threads. Love it! I usually end up with tapping an M12 x 0.5 mm and single-pointing a 0.4 or 0.45 mm pitch about the same diameter on the other end of a rod to get a 100 or 50 micron per turn effective rate, but never thought of using 3D printed supports/tensioners. Nice.

Very nice design Adam! You might try lapping the threads with fine garnet abrasive while loaded then clean and add some moly lube.

I love the use of close inch/metric pairs to make such a fine differential screw!

That's a really slick design, thanks for sharing it!

Very Cool! Differential screws are just incredible what they can do

How did it take me so long to find this channel. Really interesting concepts and designs. This guy is really creative and cunning.

metric+imperial differential threads is brilliant

Bravo - great stuff. Last time metric and imperial units were mixed, Mars ended up with a 327 million dollar orbiter cratered into it.

Please keep posting this type of content. You are sharing gold with us.

I like how you approach the problem, how you do the work, and how you explain it. Win-win-win!

I thought differential screws were very difficult to make. You showed they are not!
Thanks for the insight. I am definitely looking into this subject.

wickedly smart, and a tour de force of DFM. incredible work!

What a terrific idea and beautifully resolved design.

WOW! I have been looking at making some differential adjusters. I had not thought of mixing freedom units and metric. I love this!!! Thank you for sharing.

I was thinking about making something very similar just the other day. You beat me to it. Now I don't have to think about it - I can just use your design. Thank you muchly.

Love this as a mech eng student. Super smart design

It breaks the 'no machining' rule, but it could be an interesting solution to the stability issue: the height setting on the Tripan toolpost uses a piece of spring steel in a slot milled perpendicular to the threads. It bows out a little bit so it gives some pressure on the mating threads.

Awesome job Adam very clever solution

Great work. We shared this video on our homemade tools forum this week 😎

Very clever. Early in my career I made some similar leveling parts for Xerox, their design, with about 1" diameter with 2 different pitches. Never asked what they used them for but always thought it was clever.

Love this idea, very creative. Always love to see functional hybrid 3d-printed and metal assemblies. Affordable&quality machinists jacks are certainly hard to find.

By far the best use of 3d printing I've seen!

I just found your channel. I LOVE your content. Thank you for creating it. I really like the simple, relatively short videos.

That's a sweet design! I'll add a build to my to-do list.

Damn youtube is sleeping on this channel. Incredibly clever setup. Amazing precision. I am smashing the subscribe button.

Awesome! This is an awesome technique and very worthwhile to explore. Thank you!

That's brilliant Adam. Love the differential action.

Hi Adam,
If you drill a cross hole in the male threads, and push in a slug of nylon or ptfe so it's just proud of the base of the threads, you'll have your solution for your 'wobble' problem.

Congrats, this is the first time that the concept of a differential screw has clicked for me - of course the rotation of the nuts has to be constrained for it to work! Great concept, love your the demonstrations of kinematics and preload.

Thanks so much for sharing, it’s really impressive to see a product so simple and cheap being so effective

Really love seeing these ideas using 3d printing to make precision tools. Your video on the v-blocks was eye-opening. Thanks for taking the time to show us!

What a great and practical idea! I appreciate how well you explain the details as well!

Amazing! Thanks for sharing, Adam

Another great video! Great idea on the metric/inch differential threads!

Awesome design!
It really shows what a great mechanical minded person you are.

Truly interesting approach. I have a couple of things coming up where a variation of this technique would work nicely. Thanks!

When a Toolmaker says 'really great performance' and 'remarkable' about something to do with metrology, you better take notice. (As I've learnt from some of the YT greats now commenting on your videos). Thanks for blowing my mind with less than $12.

Simple, elegant, brilliant

Awesome design, thanks for sharing.

you're on a roll pal

Very clever, thanks for the video

The ability of thinking outside of the box is a wonderful thing to behold.
Actually came here to recommend liquid PTFE for dampening backlash on the threads but, I note someone else has already posted that :)

Adam,
Thanks for sharing. Clever design. Looking forward to the next instalment.
Cheers,
Reuben

Brilliant solution very cool idea.

That's pretty freaking awesome 👍👍👍

Very cool, practical mechanism and great video Adam! Keep it up!

I just found your channel tonight and I'm beyond impressed with your innovative mind.
An idea I had to give more stability, precision, and repeatability to the adjustment, and bear with my terminology as I am not a machinist by trade:
A bar spring, such as the magazine release spring in a glock, held in place on one end in the upper mount, that interfaces with a inverted cycloid-tooth cog mounted as a collar around the hex of the thread adapter. The inverted cycloid geometry of the teeth should allow the bar spring to cycle between The bottom lands of the cog when enough torque is applied, while otherwise holding the thread adapter at relatively repeatable angles. The level of precision from this system could be tuned by increasing or decreasing the number of teeth on the cog.
Thank you for this incredible library of information on machining; I will be diving into more of it throughout the week

Brilliant! Thanks for this!

Wow! Another great video Adam!

Combining off the shelf hardware with 3D printing is a great idea. I am not too sure though how easy it is to get these adapters over here in Europe but I think that an M10x1.5 to M8x1.25 adapter or even M14x2 to M12x1.75 is a fairly standard item.
Just putting some thicker grease or copper-paste on the thread might reduce the jiggle and make it move a bit smoother.

Absolutely genius

Picomotor from newport might be interesting, to motorise these kind of adjusters

Imperial and metric, in harmony at last!

Gday Adam, fantastic idea and affordable, im really enjoying your channel, cheers

Very nice Adam.

Man i need to take the time to read stuff better, I didn't realize who it was this channel belonged too. Or i would of subscribed much sooner. Having watched a number of videos featuring you at NYC CNC. I have learned something, or new approaches and thought processes to things.

Excellent channel, thanks so much for sharing

Another great information video

Simply brilliant.

Another very interesting video. Thanks.

thanks for making another video, fantastic content,

Great idea! Instead of teflon tape, using a nylon insert, similar to the insert used in locking setscrews, might work better long term. Plunge mill the male threads with an 1/8" endmill about .100" deep and press in a nylon slug.

This is amazing!

Cleaver idea ! To get that precision "stickey" thread feel, split the male part of the thread lengthways and then stretch it open a little with a wedge the thread will then bind a little taking out all the back lash and also preventing it from moving with vibration but will still be easy to turn, have used this technique many times before

no need to fight! metric + SAE = LOVE!

I am 100% making these! Mcmaster cart already loaded.

Sweet Jesus, this is brilliant

Really nice video Adam 👍🏼

Briljant engineering!

cool designs, WD-40 does a PTFE spray that might work on the threads although it would need reapplying over time

I'm a getting older die/mold maker. I really loved what you did with the ball bearing in the screwhead. Very nice.
One small critique, instead of using a 3D printed part for compression, why not a simple spring for expansion?

Very clever 👍

An excellent way to get a fine adjustment is to use wedges with a very low angle in combination with a fine threaded screw. You can easily get as little as .001 movement per revolution. You can also use "differential" wedges for even finer control, but it's probably not necessary.

Genius, well done. :-)

Another very cool idea combining creativity and intellect. If you're open to it ... perhaps sharing the file for the 3D printed 'springs'. I know they're not difficult, but I wouldn't be surprised if some clever thought went into yours that others might appreciate.

Great idea.

Great info

This is very cool.

Great video, thanks!

I want to print one for my tool box Adam!

Looks great!

Very nice ! + thanks for sharing +

Adam, you've got a terrific vocabulary and use the correct terminology in your video's and I thank you for that. What is your background? Education, etc...?

Very cool! Would be neat to make an xy stage as well. Heavy grease may be a good choice for the threads

Brilliant.

That is really neat 8-)

THAT WAS AWESOME!!!!!!!!!!!!!!

Adam love the design and concept, I've always been fascinated by differential screws, and using a combination of Metric and Imperial threads is inspired. But on a separate issue, in the first part of your video I noticed a detail belt sander in the back ground, and I was wondering if you would share the make and model. If you would that would be fabulous.
Thanks...

This may be a horrible idea, but to stabilize the threads, how about some putty eraser. This is a clay-like/rubber substance that doesn't harden. Not sure how it responds to oil. It may dissolve.
And if it doesn't work, you can still use the eraser to clear chips and oil from difficult to access holes and corners. I use it a lot for that.

very cool

Great design! I was thrown off a little by the inconsistent volume, but great video!

Very nice set up. I haven't looked through the other comments yet, so you may have already answered the question I am going to ask: What material did you use for those prints? That did seem to be a rather nice spring attribute. It may just be the geometry you used, but I'm thinking the material choice played a role. I have yet to venture deeply into the 3D printing world, so I have a lot more to learn in the material choices and geometry choices used in those designs, but I am curious to get a little more of your input

Nice tool.

Try some nyogel 767a on the threads. It's a dampening grease that might improve things.
At this level of precision I suspect the threads need to wear in a little as well.