Making gears by hand without machines - Part 1 - Kosmos 

5 years we patiently waited and no part 2 :(

How incredibly disappointing to discover that there is NO part two , as the cutting of the gears is (should be) the ultimate conclusion to this video.......

There is no part two:(((

That dividing engine is a fantastic piece of mechanical history. I would truly enjoy replicating it.

Where is part 2?

Very cool to see how this was done before more advanced tools and measuring devices were used. Looking forward to Part 2!

Part 2?

Great video-- thank you for sharing. I do have one thought to consider: You're too focused on using the divider to 'guess' your way to the proper tooth division distance. Time is money. They were well aware of PI, and the relationship of circumference, and diameter by that time. Therefore, the most likely solution to allow them to determine caliper width for marking, was a very simple, one-pass process: I've explained it here: They were exactly aware of how many turns of the adjusting knob it took on their marking caliper to close or spread the caliper for a specific, common distance in clock work. Once the circumference is known, and the width of the division is known, all that must be done is that the caliper adjusting knob be brought to zero (legs closed), then turned the appropriate number of times (to open them). Caliper is now the proper dimension for tooth distance, and the wheel can be marked. One pass, no guesswork. Engineering. Remember-- they did this for centuries-- the stumbling only lasted a few years.

I hope you're still planning on doing the next video. I'm looking forward to it.

I would love to see part 2!

One of my players in D&D wants to start making clockwork things. Very informative for coming up with stuff to describe how it was done.

When do we get part 2?

Any progress with part two? I've been pressing refresh for 4 years

where is part two please ?

Pretty interesting. I greatly enjoy learning how these incredible machines were made with minimally sophisticated equipment.

Where is the second part?

Leave it to a clock maker to start something and never finish it.

If I were to become a wheel cutter I would be tempted to make a much larger disc with a centre spigot. Each disc could be marked out very much more accurately because of its greater circumference and a straight edge used to transfer the lines to the wheel blank mounted on the spigot. Very low tech and much easier especially with small wheels. Once made the pre marked master discs would save considerable time. I know this video is a demonstration of dividing but I can't help wishing that you had mentioned how it could have been done without precision drilled index plates.

Very interesting. Looking forward to part 2

RIP. Part 2 wasn't meant to happen. I feel like this put me on the right track. There is no short cut. We have to use our hands and brain to solve our problems

Very cool video. Don't listen to these morons who say it is boring. I love all the tools associated with clock making. They are extremely fine and controllable tools, but all very substantially and accurately built.

Just so you know we are still waiting 😎

Now how did they make a coping saw blade? Chiseling edge on steel band?

Just so you know, we're still waiting :D

Quite the cliffhanger of an ending there. I'm looking forward to the next part of this, though 31 seems like rather a lot of tiny file work.

I enjoyed your video. Looking forward to part 2. I actually got onto this partly because my family were watchmakers many years ago and also because I was interested in making my own custom threading tools for work on horn material. Some of this transfers pretty well. So how about showing us how the teeth were actually cut?

I am trying to visualize the 3 nails in the bench lathe described in the beginning of the video. Is the work piece trapped underneath the nails? If someone would be kind enough to make a drawing that might help.

What a beautiful machine.

Beautiful piece of equipment. I'd store it on my kitchen table so show off to everyone. :)

I hate waiting for the sequel. When will we see part two? Thanks for part one.

I really enjoyed the video and the information it conveyed. It was a bit slow for my likes so I just increased the play speed to 1.5. The voice sound changes very little and is clearly understandable. I call it a win/win. :-) Thanks for posting this video.

Fascinating and reminds me of just how much we take for granted these days. Looking forward to part two when it comes along.

Very interesting. However I'd like to see how was the template manufactured prior to machinery existence.

Wonderful ...Just where I am up to. Please do do the next part of cutting the teeth :) . I was pleased to see the dividing and cutting machine. My nutting out some sort of machine to do the same I am pleased to see, is on the right track then.

Very interesting! Please let us have part 2. Thanks!

I was given dividing head that was used with a Boxford lathe. It's quite a big heavy but compact lump of machinery that came in a case with several deciding heads that made gear cutting easy. I have never even taken it out of it's case but I will have a look at it. Thanks fora n interesting video.

when will you be doing part 2?

why do i find this video soooo satisfying?

My first time learning why it's called a divider

I was amazed at how the clockmakers of olden times made clock gears from brass castings. I am still puzzled as to how they made the saw blades for cutting brass at that primitive day. Do you have any knowledge of how they made the tools necessary to work in miniature at that early day?

Good evening. Is part two available?

waiting for the part interested in the way things were done along time ago keep up the good work

I feel like part 2 is just around the corner! 🤪

Have you seen how clickspring did the deviding on his latest project? Basically he made the circle to be devided much larger then the gear to be cut, and the projected the spacing back onto the gear, thus making the deviding a lot easyer and more precise, still using only a pair of deviders like you did here. cheers.

Where is the next episode?

Now for the time saving maths, just after you inscribe the main radius (before you saw anything) take the radius and mutliply it by two then multiply the result by pi (3.14159) e.g. R=12mm, R*2*pi = 75.4mm. Now devide the answer by the number of teeth e.g. 75.4 / 31 gets 2.42mm. Now set your compas to 2.42mm and inscribe a semi circle to the circumference, from the centre of that circle mark a point on the circumference and from there draw another semi circle. Mark half the disc this way clockwise, then start back from the top and do the same counter clockwise (this is to reduce the cumulative error) and your done. If you do this for a larger wheel you will see that these circles intersect a two points, draw a line linking these two points to the outer circumference these intersection points is the marks you are after!

Great video. What I'd like to know more than making gears by hand is, "how did they make dividing plates so accurate back in the day"?

Silly question. Why would they not make a wood or brass master cog for each ratio and then use that to mark out the brass cog. If the master is made thicker it would retain its shape so you would only ever need to do the math and measurements once. Were the ratios that variable?

please please post part two!

I would love to hear more about those three nails lathes you mentioned.

verry interesting. i can not wait to see part 2

Very instructive. But please, where can I find part 2? Thank you

I was really hoping to see you get three big nails and bang them into the desk... I'm really intrigued by this, please do a video on it!

Great video, packed full of great info! Looking forward for the next one!

At 7mins 49sec, what kind of saw is that?

i love to know how people worked before modern technology! Is the part 2 video released ? cant find it..

wow so sad part 2 never got made, i was really curious

That's got to be about the most interesting videos I've watched in a long time, thanks. I really hope you're going to film the next part.

With the diameter of the inner circle known and hence its circumference. Would it not have been easier to strike off the test lengths on a straight piece of brass?

And where is part 2..?

Your hand is a very good actor 😂 Part 2 - Using a machine to make the gear

We have a weelcutingmachine like this in our company museum :) we started in the 18hundrets with clock parts and two people in their private houses :) now we are world leaders in diamond polished and cutted surfaces and count over 170 employes :) the company had these weelcutting machines wich were powerd by a leather strap connected to a watermill :) now we count hundrets of cnc machines in our company ... cracy how far the technology has come and i am proud to do my aprenticeship in the company to be a part of it :)

I watched this sometime back and since I have seen a quite a simple method for division and it seems more accurate. The gear is let’s say 2” wide. The divisions were found from using a compass placed in the center of the gear, and then the compass drew a corresponding circle of let’s say 12” around the outside of the same circle. This allows for the dividing now on a much larger scale. The radial lines are drawn through the center of the gear to the outside of the 12” circle. This increases the accuracy by a large factor and makes it far easier. The result is the same. This would be even easier the smaller the gear. Your thoughts?

Waiting for 7 years for party 2.... I'm starting to think he might not make it

The (B.C.) Antykithera Computer is an extra ordinary example: Centres are so critical.

This sir is a good video hope there’s part two coming

Loved this video. "Near as dammit" will become part of my lexicon!

I am amazed the work is not scored into say quarters which would give an indication of accuracy before completing all the marks. Even a centre line would mean the opposite tooth should be bisected. I can't believe clockmakers didn't make it easy for themselves.

Noooooo!!! There's no part 2?!?

part 2??

Kosmos, thanks for this video! I just want to ask to give us the other parts! It's too bad there is no part after months! About on how to divide the wheel: since everybody is saying what they think, here are my thoughts: I'm not sure if there weren't people who did this but I would simply get the circumference size by doing 2 times pi times radius and divided properly by the number of teethes plus one to get the section size for the desired number of teethes. And them, using a ruler (I'm not sure if it was available a somewhat precise ruler - surely not in centimeters), I could get the proper arc for the tool used to mark the blank disc just for the sake of the video.

so, what's new about any of that? How else would you divide a circle?

how can you say"using no equipment whats so ever" as your hold the piece of equipment that you just used?

Been three years now. I'm guessing Part 2 isn't coming?

Its a great amazing video! Im new in this amazing world! I want to be a watchmaker! Can you make like a list or a video mention the tools like you show now? Please! That can help us a lot to start buy them and start real good in this world! Thanks a lot!!!

I'd like to see part 2!

This is all new to me. Very interesting and informative. The takeaway I got from this is that people, by necessity and by choice, had a lot of patience and time on their hands back then. For those who found the vid long and wordy, just jump ahead so that your ADD isn't perturbed. And how the hell do you look at the stars at night where time has no meaning?

Very informative where did you get that myford mug if you don't mind me asking ?

I bought a barometer because I noticed that it had an error in the face -- the numbers (inches Hg) go from 24 to 31 with tenths marked. From 27 to 31 it's all good (27.0, 27.1 &c), but from 24 to 27 it's wrong (24.0, 24.9, 24.8 ... 24.1, 25). The face is a metal (copper?) which is silver plated and the numbers are engraved and appear black. How could this mistake have come about, and how come the barometer was not discarded as a mistake?

I was digging part one and looking forward to part 2..Did you make part two yet? and im with most others..talking is great as long as its relevant but you took an hour to show us how to divide a circle.and.let us see some equipment but did not use it...yet...thats why I wanna see part two. Ill skip the parts I dont want to see, no probs here, but from someone who has observed people most of my life I can only ask...If you just wanted to know how a gear was made without a lathe...would you watch your video or go to the next? If youtube wants to know about a left handed smoke shifter they can look it up. If Im using one in my video about making fire without a match,...well surely I can spare them the lesson on smoke shifters rt? If they'd like I can make a whole other video on that topic. Most of society isn't as patient as myself, nor as curious, so if they don't get instant or at least quick gratification they will complain, or leave! Just some constructive criticism from someone who likes to loves to learn but hates taking a lot of time to do it, but I will anyway! ..now how about that part two?

Instead of just trial and error why not just use a known radius instead of an arbitrary when you scribe your circle and then just use basic math to calculate your chord length? That would have put you way closer and way faster than just trying to figure out the chord length trough trial and error.

i imagiine if you use that last method you might have already a set of markers/deviders with the correct width for the number of teeth/size of wheel you want to make. like two pins a set distance from each other for my school watch iim hopiing to do some wheels with the slot cutter, topping tool, ingold fraise method. perhaps i will make a video.

I would love to see you show how to cut an escape wheel by hand.

such a great video, exactly what i was looking for. Thank you!

Interesting, though maybe a little slow paced. Would like to see the part 2 if you do finish it. Thanks.

odd I can not hear any thing at all. Not sure if it is my end or an issue with you tube videos for me mater of fact an alarm is sounding off as i type odd

Hey Kosmos, where's part two??

The question is, how they cut all the way through, if the blank was sitting straight on top of dividing plate, without damaging it? I have seen different device,very old,which had a 1 tooth cutter on rotating wheel and worked somewhat like a shaper. Dividing plate was NOT under the blank, but on side and the "cutting table" , on which the blank sat, was movable just a little bit...the amount equal to cut tooth depth plus little bit more...on the screw. So the first pass all around was barely cutting, then small adjustment of the table with screw closer to cutting tool and again one more time around, but little bit deeper, and again and again until it was all finished. Cannot figure out how this one cut.....

Glad I have watched it to the very end.

Surely it would be better to use Pi to get the circumference and then divide it by the number of required teeth, rather than the "hit 'n' miss" method you demonstrated. Or have I missed something?

Why do not some videos allow subtitles? I need them!

Please we are stiil waiting for part 2 :-( I do understad that you maybe do not have time, maybe you could sugges other sources of this information.

Very interesting and impressive video. When you adjusted the dividers to make 31 rather than 32 divisions on the circumference, manually!!!!! I thought "Holy C@#p", this guy is good. I thought a geometric technique must have been used, not trial and error as you did. Perhaps geometric techniques would have been used to make the dividing plate which is the template from which many accurate wheels could be made. This is a very good explanation of how clock wheels were made at the earliest time. I like your presentation method. Slow enough for students to take in the significance of each comment. And like many of the other comments below, I too want to see PART 2. Stop teasing us. Finally, I think this explains how the Antikythera mechanism was made in ancient greek times. Even so, that device inspires awe in anybody who can appreciate how far in advance of European clock maker it's creator was. Thanks again for this video, now please give us your promised PART 2. Cheers.

How old is the dividing engine shown here?

AMAZING Job!

How do they make the thing that makes the things?

so, where is part 2?

So which came first the gear or the dividing head ?

how they make gears in pocket watches?

Is there still any plans for a part two? Such little information on the original tools for this fine craft.