I was searching CZcams a few days ago to find someone actually machining a watch from scratch and was surprised at how few results I got. A lot of people calling themselves watchmakers that only clean and reassemble watches, never making them. And now more videos from you, awesome.
Unfortunately watchmaker is the correct word to use for those that repair watches, especially in modern times when most watches are factory made. Makes it hard to use as a search term to get the result you’re looking for.
As @_Agent_86 mentions, they are correct to call themselves watchmakers. It is also true that almost no one in history actually does or did "machine watches from scratch". Even before modern factory production, traditional watchmaking was done by over a dozen individual trades making various parts. If you restrict to only the watch movement, it is a bit more common, but still has only been true in luxury watches since well before CZcams, because it isn't economical for large-scale production. Smaller high-end watchmakers like Roger Smith do essentially make whole watches from scratch, producing no more than about 10 a year from a small workshop staffed with a handful of watchmakers, with years-long waiting lists and 5-digit prices. He has posted some videos, and channels like Clickspring, DeanDK and others have content that covers some of this, because it is a passion project. The reality is that even for those of us with experience and know-how, it requires a shop full of thousands of dollars in tooling and a ton of time to do something like this. This is also assuming that you are working from a pre-existing design.
He said it hadnt precison so he just built amachine not a watch.. now shut up please.
Před 4 měsíci+75
I just wanted to commend you on this video. The audio levels are perfect both for speech and background music throughout, the focus of the camera is spot on, and the pace is fantastic for the type of content. Thank you for sharing! 👍
It's fascinating to see the other end of the spectrum of precision machine work. I manually machine stuff that is in the tens to hundreds of pounds that require 0.005" accuracy usually and it boggles my mind that people such as yourself have the steadiness and patience to craft such tiny and precise parts. Truly awesome in the original sense of the word, extremely well documented and presented craftsmanship.
Use a big tool to make a small tool. Then use the small tools to make micro tools. Then use micro tools to make nano tools! Now, we are doing the inverse... nano tools being used to make big tools!
Cool! I’m guessing your expertise is rare. My dad’s former colleague in defence research was a scientific instrument maker and some of his tools found their way to me. The boxes include gravers, small files, a parallelogram-section burnisher, graver sharpening guide, brass quadrant calipers, tiny taps and dies but no holder, squares, tiny mallet. Tools with purposes unknown to me include couple of sharp edged polished burnishers about 4” x 1/4” x 1/16” with teardrop sections, and a couple of steel rods about 6” long x 3/16” dia. shaped like a cane with the handle turned out and sharpened to a point. I couldn’t begin to guess what he would have made
People in this trade usually were employed to apply their skills to the needs of a particular industry. In my case it was working for ICIANZ for a decade in relation to developing and maintaining instrumentation in relation to chemical process control. I then moved on to work in theatre, film and advertising providing design and manufacture of special effects, set design and puppetry. I eventually settled on working at a university for thirty years across a range of activities. I n each case I was able to employ all of the experience and knowledge that I had gained initially while learning about whole new range of opportunities where my skills could be applied. The tools with unknown purpose that you described are not familiar to me but could be intended to help in the calibration of a mechanism by locking it place or providing a dimensional reference. The burnisher could be used to restore an edge or bearing surface. Anything is possible? @@Mars-zgblbl
As a machinist l am amazed at the tiny parts that you create; always fascinated me. Thanx for a glorious video that is soothing to view and also excellently made; perfect camera work, sound & explanations.
Sir, the meticulousness of your manual adjustment is extraordinary, the quality of the tool equipment that you operate is good, complete and, most importantly, carefully chosen. The treatment of the edges of each tool individually are so precise that I really only have to tell you that I admire your masterful hand in turning, filing and cutting, your final result and suitability to do so. I am a mechanical adjuster but I have never practiced the profession. I was extremely pleased to be able to appreciate someone who honors the profession and, although I do not practice it, I totally love it. Thanks for posting.
I recently read the book, longitude, which is roughly about the making of the first accurate time keeper for use in ship navigation. It was fascinating. As is this video. Just incredible to imagine the people of long ago making these.
As a clockmaker I can tell you why it may be so inefficient. The pivots of the balancewheel, resp. the bearings, create way too much friction. The pivots of a sea chronometer balancewheel have ruby bearings and have only a diameter of about 5-9 hundreth of a millimeter (0.05-0.09mm). Try making them thinner, and the clock will run with less power. Also the chronometer escapement itself is quite powerhungry and not made for a vertical positioning. That's also why all the ship's chronometer clocks are mounted in some kind of gyroscope bracket. Try using a graham lever escapement with pivots as thin as possible.
The patience and meticulousness of this process is astounding. I was mesmerized by the techniques, craftmanship, and knowledge of these guys. Amazed. I'll never look at my wristwatch the same again. Perhaps he said in the vid, but how many hours was this from beginning to end?
@@chrisstephens6673 You’re not the only one who finds that synthetic Geiger counter sound effect irritating. Apart from that, I have much admiration for Clickspring.
The amount the weight drops each tick is directly related to the distance your escape wheel travels. It does not necessarily relate to the power required to run the mechanism, for example if the weight was smaller it would still travel the same distance, thus using less power. So while the spring surely does use more than it could, I feel that a smaller escape wheel / more teeth on the escape wheel would be the easiest way to increase the efficiency. Or making the barrel for the weight smaller. I wish I could make stuff like this, I've always liked watches and would like to make miniature steam engines and stuff too. Really fun watching people doing these things, especially largely by hand. Awesome video, thanks!
I have been not patiently waiting for another video of yours for so long it seems like, I absolutely love your content as a fellow horology enthusiast and watchmaker I love getting to see the fun and amazing work you do, puts a smile on my face every time. I gotta say I bet you love using that Knew Concepts piercing saw! I have one and can’t believe I used a standard one before that, it’s such a night and day difference with the amount of control and precision you can get with those saws, great video and I can’t wait to see what you do next.
Very nice video, especially liked how the escape wheel was machined. The weight drop is determined by the dimensions of the parts, and gear ratios etc. The minimum energy required could be determined by decreasing the weight mass, until the mechanic wouldn't tick over any more. Not sure if the experiment was conducted in this fashion. Though what was shown in the video it seems that a some one weight was hooked to the mechanism and then the change in potential energy was calculated, this would show the energy budget for the mechanism, with the given weight.
Ive spent a fair amount of time watching similar content, but this is the first time Ive really felt that I had a clue how the escapement worked. An excellent model/display, and great camera work too! Thanks.
Spent 3 months following your instructions, bought all the specialized tools, had a lathe installed & made all these impossibly tiny parts only to find out you "weren't trying to make an accurate timekeeper.." Now I'm running late for work so thanks 😤. Seriously though, beautiful work. The level of precision you achieve by hand is incredible
Y'all bring so much motivation and joy. You're one of the very few who can explain how something is made without completely going off topic. Thank you. Going to be making my mechanical wall clock here soon. Currently designing the dial. This definitely helps with my escapement problem. Always good to see masters at work.
Just finding the channel, instant sub, like, bell:) I got into watchmaking when this video came out, I dug out my grandfather's 1920 Elgin pocket watch, wound down the main spring, reset the balance, and got it ticking for the first time in my lifetime. A couple George Daniels documentaries later, a former train hopping past, and I have recently started my collection of railroad grade watches. My father was a sailor, and I sailed as well, so naturally I am now down the path of the Harrison clocks and other maritime chronometers. This content is invaluable to me, and so many others. Thank you for sharing the knowledge!
I watched all of this video and I see that you have asked for some suggestions. To reduce the weight of the assembly, drill a series of small holes in the escape wheel rotating and moving components. That would reduce the weight and would not seriously compromise the strength. I think your poise weights are too long. My suggestion is mainly to reduce the length, diameter, and weight of your moving components by drilling holes, reducing thicknesses, and carefully removing mass from your components. I am a retired tool and die maker and I admire your work.
I became interested in mechanical principles a few years ago. Back then I didnt appreciate the engineering know how that goes into mechanical watches. Marvellous to see how you achieve what you do. Many thanks for the high quality videos. :)
At last I found you! I could not find a video explaining watch making. And , oh boy, your video is wonderful. And your work is just art to me. I love watches. I will look at my automatic watchess with even more love. The sound your watch makes reminds me of the old clock in my grandfather's house (he was born in 1887 and had it since 1910). Sadly, the clock was lost between all the things when he passed away.
Wow about time.. lol. I've been watching < watchmaking videos now on CZcams for about a year. Not searching just when I see one and I'm in the mood I'll watch it. This Chanel so far is the best. There is another guy I won't mention by name but he... um.. I wanna be respectful so I'll leave it there. My dad was a watchmaker for almost 60 years and he taught me everything he could lol which by his library of knowledge was about 10%, I remember sitting and watching him make balance staff for a lady Rolex watch, it was mesmerising. His attention to detail was amazing in everything he did. I bet spending a day with you would bring back a lot of memories. Sadly he passed away before he could teach me watches but he did teach me everything I know about clock repairs I worked side by side with dad for 20 years and even right up to the end he amazed me with the skills he wielded. Some of these CZcams watchmakers Make me cringe. Well done and thank you for actually being a true pleasure to watch right to the end. It really is a shame that we are a dying breed.
So very beautiful. As a watchmaker who has worked on countless watches over many years, I applaud your workmanship and thank you most sincerely for making these videos.
I get a real pleasure seeing this type of precise hand made work. Although as you say so, much is now done with CNC machines et cetera but it’s so nice to see the true art is still being used and the skill maintained. Hopefully the next generation will still find enjoyment and keep it going , thanks for posting this
Mesmerizing from start to finish. Amazing knowledge and skill required to make every individual part and the finished product didnt disappoint me at least. Thank you for sharing with us.
Amazing content! To solve the problem of the drop i would suggest to add more teeth to the driving wheel . Because with less space between each tooth you will have a lower drop i think. I might be wrong , although i think it would be worth trying. Thank you for the amazing content. I am a very passionate Watchmaker based in London and i believe that videos like these are extremely important for the Art of Watchmaking to continue expanding and to inspire the future generations.
Re: efficiency. I think that although it's is using 150uW to run, it doesn't need all that energy. It's ticking quite loudly and powerfully/firmly. I expect you could get away with a much lighter weight, or a larger diameter "bobbin" (sorry don't know the correct terminology!), bringing energy consumption more into line with the escapement your friend is making. Regardess of all that, thank you for sharing your beautiful craftsmanship and videography and editing and audio skills. A joy to watch!
Absolutely beautiful precision Tools… and phenomenal skill of you Guys. I could “Watch” this kind of Video all day. This is tantamount to Brain surgery. Thanks. Nigel.
Thank you so much for making this video. It is beautifully shot. I appreciate the difficulty of doing this when filming such small things and also the camera being in the way whilst you are trying to work. Thank you also for taking the time to make this explanatory model. It was also very interesting to me as someone who also machines parts for various purposes to spot almost train spotter fashion the George Thomas universal pillar tool and dividing head, the Quorn tool and cutter grinder, The Myford Super7 and the Dore Westbury milling machine which lastg I also use though subjecting it to greater stresses. Thank you again for your efforts.
Years ago I made a detent chronometer escapement wall clock. I initially used a flat "hairspring" made from an old watch spring and it didn't really work as good as your escapement. In the end I made a vertically coiled spring from flat section plastic (3mm X 0.1mm). With this spring the movement works quite well and does not take so much energy to power it. The only other thing I noticed is that the clock is very noisy compared to an anchor or grasshopper escapement. Superb video though - keep them coming.
Lovely to see all the Geo. Thomas gear in the video! The pillar tool, the dividing head, etc. And wasn't that a Quorn making the fly cutter for teeth? Nice job guys! You didn't mention any rarified watch oil for the pivots--perhaps a source of energy loss?
One video and I'm completely addicted! Consider me subscribed. As for the inefficiency, friction and any spring that is being deflected require energy to overcome. That energy must be subtracted from the gravitational energy available.
A beautifully created video, thank you. This is one of those videos, that while watching it, I find myself not breathing. Great explanation of the 'Heart of a Watch'.
I have been wanting to build a watch the size of an 18 inch wall clock and have the entire thing in a glass case so it can be seen working. This video is encouraging me to go for it!
Awesome Video, always wanted to see how watch makers hand craft (no CNC) inner workings ,very good resolution on the various metal removals.... that's art just incredible
Great inspiration for me to improve my filing skills on tiny parts. mmWave radio antenna components and instruments are getting to be a similar size as watch parts
So I found and bought a Franz Hermle German mantle clock in a thrift store (2nd hand) for around $35. I noticed that it wasn’t synchronized with WWV in Fort Collins CO. I’ve been fiddling with the hair spring adjustment screw in the escapement mechanism for months but it just won’t keep time; either too fast or too slow. I found a cheap Korean pendulum wall clock in another thrift store and by adjusting the length of the pendulum, it keeps way more accurate time.
As another clock-level fiddler, one suggestion is that if the part of the mechanism you're attending to doesn't have the effect you want, you may need to attend to something different. Hermle makes good clocks.
would love to see this type of video making a pin lever escapement. i cant find a single video on how to make one that is anywhere close to this quality.
Speaking as a novice, I do believe the spring is your primary culprit as the weight is holding tension as its intended. A lighter weight may help though as vibration was occurring when the weight would drop. It may be impacting the mechanism as a whole by adding excess strain to the mechanism. A lighter weight would change the stroke, but may also help stabilize the system. I enjoyed this video way too much lol
I learned so much about manufacturing of small parts like toothwheels and bearings, thank you very much for the video, I subscribed your channel to see more of your skills. Greetings from Bavaria, Wolfgang
The scale of these pieces is consistently mindblowing. The camera makes them look like hefty, substantial pieces of metal... until I see them sitting on a fingertip and realize they're the side of a kernel of corn and the measurements are in micrometers. And these are _two to three times bigger._
Regardless of being inefficient, that's still a beautiful piece of engineering!
ineficient menas its an unusefull machine, in this case ,,
if it havnt precison is not a watch
I was searching CZcams a few days ago to find someone actually machining a watch from scratch and was surprised at how few results I got. A lot of people calling themselves watchmakers that only clean and reassemble watches, never making them.
And now more videos from you, awesome.
Repairing or restoration makes you money. Manufacturing removes that money.
@@robertbrowne7880 well yeah of course. I'm just wondering how many watchmakers on CZcams could actually make a watch.
Unfortunately watchmaker is the correct word to use for those that repair watches, especially in modern times when most watches are factory made. Makes it hard to use as a search term to get the result you’re looking for.
As @_Agent_86 mentions, they are correct to call themselves watchmakers. It is also true that almost no one in history actually does or did "machine watches from scratch". Even before modern factory production, traditional watchmaking was done by over a dozen individual trades making various parts. If you restrict to only the watch movement, it is a bit more common, but still has only been true in luxury watches since well before CZcams, because it isn't economical for large-scale production.
Smaller high-end watchmakers like Roger Smith do essentially make whole watches from scratch, producing no more than about 10 a year from a small workshop staffed with a handful of watchmakers, with years-long waiting lists and 5-digit prices. He has posted some videos, and channels like Clickspring, DeanDK and others have content that covers some of this, because it is a passion project.
The reality is that even for those of us with experience and know-how, it requires a shop full of thousands of dollars in tooling and a ton of time to do something like this. This is also assuming that you are working from a pre-existing design.
He said it hadnt precison so he just built amachine not a watch.. now shut up please.
I just wanted to commend you on this video. The audio levels are perfect both for speech and background music throughout, the focus of the camera is spot on, and the pace is fantastic for the type of content.
Thank you for sharing! 👍
This is the perfect comment.
agreed!
You guys are filling in the Clickspring-Shaped hole in my heart :) Wonderful work and beautiful camera shots, as always! Gorgeous mechanism and video!
It's fascinating to see the other end of the spectrum of precision machine work. I manually machine stuff that is in the tens to hundreds of pounds that require 0.005" accuracy usually and it boggles my mind that people such as yourself have the steadiness and patience to craft such tiny and precise parts. Truly awesome in the original sense of the word, extremely well documented and presented craftsmanship.
Patience . . no matter how much you start with, you always run out
That was 38 mins well spent. Thanks for an informative and soothing dive into the spring detent escapement :) Cheers
Fantastic to hear you enjoyed it. Thanks for watching!
I’m amazed at people who can work with such small items making even smaller items.
Use a big tool to make a small tool. Then use the small tools to make micro tools. Then use micro tools to make nano tools!
Now, we are doing the inverse... nano tools being used to make big tools!
As someone who started their working life as a Scientific Instrument Maker, your work is a joy to behold. Thank you for sharing your creative journey.
Cool! I’m guessing your expertise is rare. My dad’s former colleague in defence research was a scientific instrument maker and some of his tools found their way to me. The boxes include gravers, small files, a parallelogram-section burnisher, graver sharpening guide, brass quadrant calipers, tiny taps and dies but no holder, squares, tiny mallet. Tools with purposes unknown to me include couple of sharp edged polished burnishers about 4” x 1/4” x 1/16” with teardrop sections, and a couple of steel rods about 6” long x 3/16” dia. shaped like a cane with the handle turned out and sharpened to a point. I couldn’t begin to guess what he would have made
People in this trade usually were employed to apply their skills to the needs of a particular industry. In my case it was working for ICIANZ for a decade in relation to developing and maintaining instrumentation in relation to chemical process control. I then moved on to work in theatre, film and advertising providing design and manufacture of special effects, set design and puppetry. I eventually settled on working at a university for thirty years across a range of activities. I n each case I was able to employ all of the experience and knowledge that I had gained initially while learning about whole new range of opportunities where my skills could be applied. The tools with unknown purpose that you described are not familiar to me but could be intended to help in the calibration of a mechanism by locking it place or providing a dimensional reference. The burnisher could be used to restore an edge or bearing surface. Anything is possible? @@Mars-zgblbl
Ooh, I didnt know I'd be learning about escapement mechanisms today 😊 Thank you for taking the time, and explaining everything in such detail
Premium, detailed, impeccable standards of a premier.
As a machinist l am amazed at the tiny parts that you create; always fascinated me. Thanx for a glorious video that is soothing to view and also excellently made; perfect camera work, sound & explanations.
This channel deserves more subs. People with skills like this with this level of attention to detail are extremely rare these days.
What fascinates me is the amount of handwork that is involved in the making of many of your mechanisms!
Sir, the meticulousness of your manual adjustment is extraordinary, the quality of the tool equipment that you operate is good, complete and, most importantly, carefully chosen.
The treatment of the edges of each tool individually are so precise that I really only have to tell you that I admire your masterful hand in turning, filing and cutting, your final result and suitability to do so.
I am a mechanical adjuster but I have never practiced the profession. I was extremely pleased to be able to appreciate someone who honors the profession and, although I do not practice it, I totally love it. Thanks for posting.
I recently read the book, longitude, which is roughly about the making of the first accurate time keeper for use in ship navigation. It was fascinating. As is this video. Just incredible to imagine the people of long ago making these.
I still don’t understand how Patek Philippe made perfect watches in 1839.
As a clockmaker I can tell you why it may be so inefficient.
The pivots of the balancewheel, resp. the bearings, create way too much friction.
The pivots of a sea chronometer balancewheel have ruby bearings and have only a diameter of about 5-9 hundreth of a millimeter (0.05-0.09mm). Try making them thinner, and the clock will run with less power.
Also the chronometer escapement itself is quite powerhungry and not made for a vertical positioning. That's also why all the ship's chronometer clocks are mounted in some kind of gyroscope bracket. Try using a graham lever escapement with pivots as thin as possible.
36:34 the moment its heart beat for the first time - it lives!
i request an asmr video of this thing running. just the thing. running. nothing else.
The mastery of the technical language is remarkable! Hats off your excellent work 👏
Glad to see this was re-uploaded. Thanks for sharing.
The patience and meticulousness of this process is astounding. I was mesmerized by the techniques, craftmanship, and knowledge of these guys. Amazed. I'll never look at my wristwatch the same again.
Perhaps he said in the vid, but how many hours was this from beginning to end?
This channel is very reminiscent of Clickspring, except with a relaxing English voice instead of a relaxing Australian voice
I miss clickspring, he's been afk for a while now
And unlike clickspring there is none of that dreadful squeaky noise when he overlays the finished and unfinish item.
1😂❤😂😂😂😂@@kahlzun
@@chrisstephens6673 You’re not the only one who finds that synthetic Geiger counter sound effect irritating. Apart from that, I have much admiration for Clickspring.
@@chrisstephens6673I always liked it.
Oh my. The end result is indeed a thing of beauty. Enthralling to watch from beginning to end. Thank you for sharing your fantastic work. 👏👏👍😀
You're a kind person for making it possible for us to see this. Thank you!
The amount the weight drops each tick is directly related to the distance your escape wheel travels. It does not necessarily relate to the power required to run the mechanism, for example if the weight was smaller it would still travel the same distance, thus using less power. So while the spring surely does use more than it could, I feel that a smaller escape wheel / more teeth on the escape wheel would be the easiest way to increase the efficiency. Or making the barrel for the weight smaller. I wish I could make stuff like this, I've always liked watches and would like to make miniature steam engines and stuff too. Really fun watching people doing these things, especially largely by hand. Awesome video, thanks!
I have been not patiently waiting for another video of yours for so long it seems like, I absolutely love your content as a fellow horology enthusiast and watchmaker I love getting to see the fun and amazing work you do, puts a smile on my face every time. I gotta say I bet you love using that Knew Concepts piercing saw! I have one and can’t believe I used a standard one before that, it’s such a night and day difference with the amount of control and precision you can get with those saws, great video and I can’t wait to see what you do next.
Very nice video, especially liked how the escape wheel was machined.
The weight drop is determined by the dimensions of the parts, and gear ratios etc. The minimum energy required could be determined by decreasing the weight mass, until the mechanic wouldn't tick over any more. Not sure if the experiment was conducted in this fashion. Though what was shown in the video it seems that a some one weight was hooked to the mechanism and then the change in potential energy was calculated, this would show the energy budget for the mechanism, with the given weight.
Ive spent a fair amount of time watching similar content, but this is the first time Ive really felt that I had a clue how the escapement worked. An excellent model/display, and great camera work too! Thanks.
I wish you put more time into showing how the parts work together. It was an extremely interesting video. Very well done. Awesome craftsmanship!
Spent 3 months following your instructions, bought all the specialized tools, had a lathe installed & made all these impossibly tiny parts only to find out you "weren't trying to make an accurate timekeeper.." Now I'm running late for work so thanks 😤.
Seriously though, beautiful work. The level of precision you achieve by hand is incredible
Y'all bring so much motivation and joy. You're one of the very few who can explain how something is made without completely going off topic. Thank you. Going to be making my mechanical wall clock here soon. Currently designing the dial. This definitely helps with my escapement problem. Always good to see masters at work.
This video is superbly narrated! Cadence, pitch, diction, and technical vocabulary are spot on. Well done! Subscribed 👍
Just finding the channel, instant sub, like, bell:) I got into watchmaking when this video came out, I dug out my grandfather's 1920 Elgin pocket watch, wound down the main spring, reset the balance, and got it ticking for the first time in my lifetime. A couple George Daniels documentaries later, a former train hopping past, and I have recently started my collection of railroad grade watches. My father was a sailor, and I sailed as well, so naturally I am now down the path of the Harrison clocks and other maritime chronometers. This content is invaluable to me, and so many others. Thank you for sharing the knowledge!
I watched all of this video and I see that you have asked for some suggestions. To reduce the weight of the assembly, drill a series of small holes in the escape wheel rotating and moving components. That would reduce the weight and would not seriously compromise the strength. I think your poise weights are too long. My suggestion is mainly to reduce the length, diameter, and weight of your moving components by drilling holes, reducing thicknesses, and carefully removing mass from your components. I am a retired tool and die maker and I admire your work.
I became interested in mechanical principles a few years ago. Back then I didnt appreciate the engineering know how that goes into mechanical watches.
Marvellous to see how you achieve what you do. Many thanks for the high quality videos. :)
At last I found you! I could not find a video explaining watch making.
And , oh boy, your video is wonderful. And your work is just art to me.
I love watches.
I will look at my automatic watchess with even more love.
The sound your watch makes reminds me of the old clock in my grandfather's house (he was born in 1887 and had it since 1910). Sadly, the clock was lost between all the things when he passed away.
I was just thinking about making a similar size chronometer escapement!
Gorgeous work!
I greatly enjoy seeing good workmanship and precision.
Thank for providing this video.
Wow about time.. lol.
I've been watching < watchmaking videos now on CZcams for about a year. Not searching just when I see one and I'm in the mood I'll watch it.
This Chanel so far is the best.
There is another guy I won't mention by name but he... um.. I wanna be respectful so I'll leave it there.
My dad was a watchmaker for almost 60 years and he taught me everything he could lol which by his library of knowledge was about 10%, I remember sitting and watching him make balance staff for a lady Rolex watch, it was mesmerising.
His attention to detail was amazing in everything he did.
I bet spending a day with you would bring back a lot of memories. Sadly he passed away before he could teach me watches but he did teach me everything I know about clock repairs I worked side by side with dad for 20 years and even right up to the end he amazed me with the skills he wielded.
Some of these CZcams watchmakers
Make me cringe.
Well done and thank you for actually being a true pleasure to watch right to the end.
It really is a shame that we are a dying breed.
Amazing! I would love to see a follow-up using an infrared camera to see where heat is lost!
So very beautiful. As a watchmaker who has worked on countless watches over many years, I applaud your workmanship and thank you most sincerely for making these videos.
Beautiful work, but also, Beautiful machine tools! 👏
Absolutely staggering.
I'm almost speechless at the ease with winch you work.
you've made a beautiful thing between you, thanks for sharing.
I get a real pleasure seeing this type of precise hand made work. Although as you say so, much is now done with CNC machines et cetera but it’s so nice to see the true art is still being used and the skill maintained. Hopefully the next generation will still find enjoyment and keep it going , thanks for posting this
These videos are so relaxing. I would love to one day be able to machine something of this precision and quality
I started my engineering career as a scientific instrument maker some 55 years ago. Your fine work brought back happy memories.
I find it amazing people were able to produce these in miniature hundreds of years ago.
Amazing to see such skill still exists. Keep doing what you're doing.
Mesmerizing from start to finish. Amazing knowledge and skill required to make every individual part and the finished product didnt disappoint me at least. Thank you for sharing with us.
Amazing content!
To solve the problem of the drop i would suggest to add more teeth to the driving wheel . Because with less space between each tooth you will have a lower drop i think.
I might be wrong , although i think it would be worth trying.
Thank you for the amazing content. I am a very passionate Watchmaker based in London and i believe that videos like these are extremely important for the Art of Watchmaking to continue expanding and to inspire the future generations.
New, but willing learner for craft being shown here. Thanks for your time!
I have always been fascinated with the designing, and building of watches!!!
Beautiful craftmanship. Thank you.
Watched from start to finish. Very soothing. Awesome craftsmenship.
This was incredibly inspiring to watch. Truly amazing to see such high skill levels. It must have taken many years to get to that level.
Re: efficiency. I think that although it's is using 150uW to run, it doesn't need all that energy. It's ticking quite loudly and powerfully/firmly. I expect you could get away with a much lighter weight, or a larger diameter "bobbin" (sorry don't know the correct terminology!), bringing energy consumption more into line with the escapement your friend is making.
Regardess of all that, thank you for sharing your beautiful craftsmanship and videography and editing and audio skills. A joy to watch!
Super machining work !! Kudos to the patience.
Absolutely beautiful precision Tools… and phenomenal skill of you Guys. I could “Watch” this kind of Video all day. This is tantamount to Brain surgery. Thanks. Nigel.
Thank you so much for making this video. It is beautifully shot. I appreciate the difficulty of doing this when filming such small things and also the camera being in the way whilst you are trying to work.
Thank you also for taking the time to make this explanatory model.
It was also very interesting to me as someone who also machines parts for various purposes to spot almost train spotter fashion the George Thomas universal pillar tool and dividing head, the Quorn tool and cutter grinder, The Myford Super7 and the Dore Westbury milling machine which lastg I also use though subjecting it to greater stresses.
Thank you again for your efforts.
Years ago I made a detent chronometer escapement wall clock. I initially used a flat "hairspring" made from an old watch spring and it didn't really work as good as your escapement. In the end I made a vertically coiled spring from flat section plastic (3mm X 0.1mm). With this spring the movement works quite well and does not take so much energy to power it. The only other thing I noticed is that the clock is very noisy compared to an anchor or grasshopper escapement.
Superb video though - keep them coming.
Lovely to see all the Geo. Thomas gear in the video! The pillar tool, the dividing head, etc. And wasn't that a Quorn making the fly cutter for teeth? Nice job guys!
You didn't mention any rarified watch oil for the pivots--perhaps a source of energy loss?
One video and I'm completely addicted! Consider me subscribed.
As for the inefficiency, friction and any spring that is being deflected require energy to overcome. That energy must be subtracted from the gravitational energy available.
Wow. I was captivated the entire time much in the same way when I watch Clickspring's content. You guys are killing it!! Keep bringing us more videos.
A beautifully created video, thank you. This is one of those videos, that while watching it, I find myself not breathing. Great explanation of the 'Heart of a Watch'.
Absolutely beautiful. The precision is wonderful!
I would kill to be able to go watch this process from start to finish!! Truly master craftsmanship.
Great video!!
Love it, I would struggle to make this, and its 3 times actual size! superb demo thank you
What a beautiful piece, Awesome to see someone doing this kind of work, very neat!
I am watching the filing and this man is an expert at it. I file and make things with files but I do take my hat off to you.
i love the sound it makes, wish i could have one of these to listen to when i falling asleep
I have been wanting to build a watch the size of an 18 inch wall clock and have the entire thing in a glass case so it can be seen working.
This video is encouraging me to go for it!
That sounds like an excellent idea! Best of luck with the project if you decide to give it a go.
Awesome Video, always wanted to see how watch makers hand craft (no CNC) inner workings ,very good resolution on the various metal removals.... that's art just incredible
I don't care if it's not commercially viable - it's outstanding, beautiful work.
Making these beautiful pieces of engineering is fascinating, but something needs to be said about making the small TOOLS that are used too!!!
Form + Function = Elegant.
Thanks and Regards !
A calming voice and patience seem to go hand in hand.
I have to tell you,absolutely amazing workmanship. I loved the video. I have subscribed and look forward to seeing more of your videos. Thanks.
Great inspiration for me to improve my filing skills on tiny parts. mmWave radio antenna components and instruments are getting to be a similar size as watch parts
So I found and bought a Franz Hermle German mantle clock in a thrift store (2nd hand) for around $35. I noticed that it wasn’t synchronized with WWV in Fort Collins CO. I’ve been fiddling with the hair spring adjustment screw in the escapement mechanism for months but it just won’t keep time; either too fast or too slow. I found a cheap Korean pendulum wall clock in another thrift store and by adjusting the length of the pendulum, it keeps way more accurate time.
As another clock-level fiddler, one suggestion is that if the part of the mechanism you're attending to doesn't have the effect you want, you may need to attend to something different. Hermle makes good clocks.
always amazing to watch you guys work!!
Mesmerizing and fantastic handcrafts. Thank you for this video.
Would love to see a long video of just the mechanism ticking.
Fascinating, amazing and relaxing all at the same time!
Wow, thank you so much. I really enjoy watching skilled people producing projects like this.
This and the music is very relaxing. Thank you.
I can watch videos like this for entire day
Clickspring made me open to channels like this, you have a new subscriber. Keep up the wonderful work
Impressive work + explanation. Makes me want a clock with no hands that exists solely as a kinetic sculpture showing off the escapement.
Beautiful work. Very inspirational too. Now I want to build this as well.
This is on another level altogether! Thank you for the awesome video!
would love to see this type of video making a pin lever escapement. i cant find a single video on how to make one that is anywhere close to this quality.
yes, very much enjoyed it 🙂 !!!, am also hoping for your covering a modern swiss watch locking mechanism that uses a pallet fork ???
Excellent video and work, I always enjoy watching and learning from you guys. 👌
Beautiful!
Creating a living heart out of several types of metal.
Bravo Zulu!!!!!
Speaking as a novice, I do believe the spring is your primary culprit as the weight is holding tension as its intended. A lighter weight may help though as vibration was occurring when the weight would drop. It may be impacting the mechanism as a whole by adding excess strain to the mechanism. A lighter weight would change the stroke, but may also help stabilize the system. I enjoyed this video way too much lol
I learned so much about manufacturing of small parts like toothwheels and bearings, thank you very much for the video, I subscribed your channel to see more of your skills. Greetings from Bavaria, Wolfgang
This video put me in a trance. And it makes me believe that humanity still has a chance. So beautiful.
this is such a great explanation, I loved it
The scale of these pieces is consistently mindblowing. The camera makes them look like hefty, substantial pieces of metal... until I see them sitting on a fingertip and realize they're the side of a kernel of corn and the measurements are in micrometers. And these are _two to three times bigger._
This is becoming my new favourite channel.