Can you 3D Print a Mechanical Clock?

So badass! Really great explanation of gear ratios and torque. I've never done a clock project like this, but I might have to give it a shot now. Awesome.

About 12 years ago I looked around online to try and buy a clock kit because I wanted to make something like this. It did not exist. So I decided to build my own. Now these clocks are everywhere. It's so exciting to see so many peoples different ideas on how to make them. Especially with 3d printing now the designs are endless. You did a great job of explaining the different types of escapements and explaining the gear ratios. I so wish this video was around 12 years ago when I started searching. Keep up the great work.

This escapement series has been so fun and exciting to follow all this while! It looks so cool all together!

This week I bought the plans for this clock, printed the parts on a Prusa MK4S which only took less than 24 hours. Assembly is easy, as long as you are precise. However, making sure the clock ticks continuously, took a little bit longer than I expected (few hours), but eventually it runs. It's definitely worth the money for the plans. I also like that this clock runs 100% mechanically, instead of battery powered. And you learn a lot regarding gears, ratio and the mechanisme of a clock. Great model and a Fantastic from the Designer @Engineezy!

I love all the different unique sounds the escapement mechanisms make 🤩🤩🤩

I'm not sure if I should love or hate this, because now you've got me trying to learn CAD...

Your work is not only original but also awesome. Thank You.

I've been thinking about accuracy the whole time of watching this video and when you showed the screw thread on the pendulum is just so satisfying. What a great build and nice video

I feel nothing but fully impressed. You are an amazing mechanical engineer and artist. I have watched several videos on how watch works, none of them explain better than you

Can you partner with bambu to make a kit

This is seriously one of the coolest things I've ever seen.

Thank you for this amazing tutorial!

Wow, what a cool design; I’m gonna make one of these for my workshop!
One minor point: If the clock is running fast, I’d think you’d want to move the pendulum weight down, to increase the period of the pendulum swing, no?
Super work and a beautiful-looking design!

Thanks for not just explaining the printing but the great mechanics behind such a "simple" thing like a clock. We should respect the great little inventions that took us to precise mechanic clocks.

This is by far the best and most concise video I've seen explaining the various escapements and how a pendulum clock actually works. I really want to give this a try. Thanks so much for posting, excellent!

Thank you so much for not rushing of the different types of escapements

this video completely demystified mechanical clocks for me. Thank you very, very much!! I finally get it!!!

One of the best explanations of the time keeping mechanics I've seen yet.

I'd love to see more detail on how to design some of the escapements in detail. Like the gear teeth or escapement teeth in SOLIDWORKS.

Dude stoked to see this all come together! Great job and beautiful design

Dude! Outstanding. As soon as my printer gets here I will be making your clock. Thanks so much for this video.

Speaking from a mechanical engineering viewpoint, you’re brilliant!

Outrageously good explanation, very clean video, one can tell that you not only understand the topic very well but you also understand how to structure and explain the information clearly.
Keep doing your thing, I'm subscribed!

Thanks for this masterpiece! You´ve matched the perfect ratio of entertainment and informations, really enjoyed those 9 1/2 minutes

This is the coolest project for 3D printers. Purchasing the model and starting on this immediately.

Thanks!

Fantastic, I've purchased your files and my wife will love the resulting clock. Next step figuring our which color pla to use.

very nice profund explanations.I once had a company, making mechanical clocks by wood which was a big success. Perhaps i will print our top model exactly 1:1 or with small modifications. One important point is lifetime, where i have a big doubt if printed parts can compete.Our experience of our clocks is more than 30 years and they are still in use.
Very nice engineering and presentation.

I was thrilled watching this, and then you added the “flyback” complication. So cool!

I’ve been really enjoying this series, Jay, and this is a great finale video 🙂
Couple of requests/ideas for standalone ‘how to’ videos:
- how are you modelling gears? I’ve found ways, but not yet figured out a good easy way I’m happy with
- your prints look really smooth - an overview of materials/techniques would be great
- how do you deal with clearance, especially accounting for different printers?

Im 🤯 Clocks and watches are 👌🏻 Thank you so much for showing each design and breaking it down. Thats why Every clock has a distinct sound. 😎 Awesome!

Thank you so much, Jay. I find joy watching all your creations. It feels like the childhood that was missing.
Really appreciate that you are sharing all these with us. Keep enjoying and creating! ❤🙏

Awesome project! Nice and interesting video!

When I was a kid there was a book at the bookstore, that was actually a paper clock kit. I always wanted it, parents always said no. It had pages of the same gear shapes, and you were supposed to cut them out, and glue them on top of each other in layers, until you had a gear rigid enough for a clock mechanism. I always thought it was a neat idea. I doubt 8 year old me could have completed the clock, though.

Your videos are always a pleasure to watch.

That minute hand is Awesome! Well done!

Great job Jay - been loving this content on clocks and escapements!!

That's awesome! So much thought and work must have gone into the project.

Fantastic work! I've heard many of these timepiece terms before but this does a great job in defining them visually for me. Appreciate the content. Gained a new subscriber 🙂

0:28 minor thing but the analog to the potential energy stored by the weight+height would be the energy in the battery, not the power provided by the motor

So cool, looks like so much fun to make! It’s obvious you have a joy for thoughtful building!
I bet this project really took some time to make, hahaha!! Get it!!
Great great video and thank you for sharing

This is my Christmas break project. Super excited to print and assemble.

Just a tip for gear wear and longevity. It's best for a gear to not have tooth count that are multiply or factor of the other gear's tooth count that it is meshing with. This will promote even wear and minimize weak spot.

I am currently saving up money to get a 3-D printer, and it is going to be the Bambu Labs X1 Carbon, when I do get this new printer I am going to probably try to print your clock so I can put it above my 3-D printer or in my room somewhere! I really love how it looks and how you can tell time with it! It is also really cool how you explained the escapement mechanism, it makes complete sense when I listen to you explain it very clearly. I love your clock, and I will try printing it love your videos man. You should do another video like this!

Could you upload a normal speed video of this running for like an hour or two?
I’d love to have this just clicking on in the background.
Maybe a JBV Creative Extra’s channel or something.

I'm happy to see you tackle clocks, I've been working on a fully radial/symmetric, triple escapement system with an inverted escapement wheel for the better part of a year now It's nice to see others tackling similar mechanisms.

Hello, I recreated your clock with enthusiasm. However, I have 2 problems. The clock fell down after some time. I loaded the weight with 2.5kg. The holder has already broken 3 times and the watch fell to the floor. I tried different materials with different settings. The threads attached to the wall appear to be undersized for this weight. Has no one had this problem yet? Furthermore, the clock stops after a while. If I remove the deadbeat anchor everything turns as it should. I checked everything for ease of movement. If anyone has an idea I would be very grateful. Thanks

Dude this is god dam amazing! great work. I've never 3D printed anything but I have access to some printers and I've always wanted a clock like this!

Just purchased the file and about to start printing on my Bambu X1! Your channel is awesome 👏🏽

Awesome project. Nicely done!

In the video you said: "If your clock is running to fast, rise the pendulum. If it's running to slow lower it down" This is a mistake. Making the center of pendulum mass lower makes pendulum oscilation slower, and making it higher makes it faster.

8:33 I think you meant to say it the other way around. If the clock runs fast, the pendulum weight should be lowered to increase the period, and vice versa.

found my new youtube rabbit hole. This content is incredible.

so cool! (p.s. I'm assembling the marble escarpment now)

Oh wow! I didn’t even realize this was finished!! I need to make one!

This is, like, BEAUTY! I really love it! This is awesome!

I dont know if I ever will be able print this, but this is the content why I have YT subcriptions, and I will buy the model from your site! Amazing, than you!

This was a very useful video. I appreciate the tips! The brass insert was particularly useful.

$7 for an STL is a steal.
But I would pay $200+ to follow you in an instructional video series stepping me through how to make one of these in a CAD program.

In all the conventional clockmakers videos I've seen, they seem to be really obsessed with polishing and burnishing every point a metal shaft makes contact. I assume that's to reduce every little bit of torque reduction along the chain...
Also, did you use any oil at all?

Another thing you can do to increase the run time of the clock that doesn’t involve adding more string and elevating the clock higher and higher is to add additional gear mechanisms for days or weeks or even months and use a reduction gear to provide the torque to keep the clock running without increasing the weight used. Meaning its possible to make a clock that runs for an entire year off of a single wind up.

awesome video, keep up the good work

Couldn't you make it run longer with a few pulleys connected to the weight string?

Any more clock designs coming soon? It would be awesome to see some of your escarpments in an entire clock.

8:27 the clock you made reminds me of Time Piece from Castlevania symphony of the Night.

Great job! I like the explanations & the numerical dials at the end

I'm naturally thinking about Thomas Jefferson's Great Clock that used cannonball weights. But, he had to cut holes in his floor to get it to run multiple days.
The retrograde minute display is a really nice touch.

If I buy the clock files to print do I get instructions on how to put the clock together?

I would put a little bell on the zero-minute that way when the dial snaps back, you get a chime for the hour.

Earlier i was thinking about how doors with those boxes and arms attached to close themselfs probably see a lot of use. I was kept awake thinking you can probably link the wind up components of a clock like this to a door that sees alot of use so it can consistently be wound passively.

for the seconds display, what makes the cam follower pull to the right at the end of the minute?

Wow that’s one way of making a mechanical clock! Very cool

I plan to start my own mechanical watch company and I know soon, I will offer special thanks to you

I'm between jobs and when I saw this video title I felt so happy that I finally find gift for my friend that won't cost me much, but then I found out you charge for design. It immediately changed my mood back to my depressed normal :D
not saying you're doing anything wrong... I just had need to tell world about my mood swings when I saw your video :)

It's astonishing to me that you don't have millions of subs. Since subscribing, each time you post a video there's always something unique & even more interesting than the last.

Idea for the minute face, leave a line for each quarter phase and a dot for each 5-minute phase, it should read (0| • • | • • | • • | • • |60), or use a bold dot for the quarter and a small dot for the 5s, reading (0• · · • · · • · · • · · •60)

You nailed it mn! Awesome clock

Brilliant. Saw an exhibit at the British Museum on the history of clocks. This would fit in well. 🙂

I printed the Spur gear and had trouble with the tall shaft breaking off at the interface between the shaft and the gear center. This may be due to increased cooling time between layers while printing the outer pawl ring. I intend to increase the outer diameter of the shaft and corresponding hole in the ratchet to strengthen this area. Any thioughts on this?

Thank you very much for your demonstration and explanation!

that was a treat, those escapements are incredibly creative.

How difficult would it be to build the clock with a different escapement mechanism? I'd like to have the clock with either the Arnfield or Grasshopper escapements.

See Seiko's Tri-synchro Regulator system in their Spring Drive wristwatch movements. The escapement is replaced with a "glide wheel" which has an electronically controlled electromagnetic brake to maintain the speed of the glide wheel. There are no batteries in the watch, the mechanical spring generates sufficient power at the glide wheel to power the electronics and the brake. Maybe the concept could be applied to a 3D printed mechanical clock. Accuracy to ± 1 second per day in the Seiko.

Magnificent ... I 'll made mine , superb . Greetings from Peru arequipa

What material did you use to print the clocks?

Sir.. you are a MASTER! Well done!

that's a really neat project - good job

Hey JBV!!!! I have an idea!!! you should make a chime of some kind. you could make it easy like just hitting a little bell with the minute hand every hour when it resets. Or you could make it your next serious project and design a wall mounted full chime that can ding once for every hour shown on the clock.

Me actually understanding what is going on as he’s explaining it only too see the outro of a Timelapse of the clock and be like “yeah no”

8:33, do the opposite of this. Make it run slower by lowering the weight (increasing it's CoM and, by extension, its effective length), and vise-versa for speeding up a slow-running clock.

Currently in the process of designing and making a very similar clock but I’m having some friction issues, have you got spacers behind the gears touching the bearings, if so how did you get the whole system to be so stable, there’s a lot of flex in my gears and base plate

Very nice and inspiring! Thanks for sharing 👍🏼

The bearings I buy have too much grease and too much friction for the forces involved with 3d printed parts. Any suggestions ?

You should try to make a 24hr mechanical clock

Love it! Very cool. Smart thinking, smart design. I guess many mentioned it already but the regulating advice was the wrong way round. Really looking forward to what you do next. Interesting I saw that scissor mechanism with boxing glove up on the wall. Same mechanism used in the Bowes Silver Swan Automaton from 1773!

8:28 what clock face is that?

I Can't imagine How many times he had to re-print a piece or How many hours he spent srudying the Clocks mechanism.
I respect this video!

Thats very cool, well done

8:33: Isn't this backwards? I think raising the weight makes it run faster and lowering the weight makes it run slower.

Wow, super cool use for 3d printing