WHAT MAKES IT WORK? #6 Chinese Windlass- tubalcain mrpete222

I used a chain hoist 75 years ago. Now I know how it worked. Thanks for demonstrating this.

It takes a stroke of genius to make such an effective, simple machine.

Wow! It's rare that I come across an unfamiliar mechanical concept, but this was certainly one. I really enjoyed learning something new- Thanks!

Very interesting. Thanks for showing this.

This is a terrific explanation for an ingenious machine. I first watched #7 (the Differential Hoist) and did not fully understand why it worked. But after watching this . . . wow!
You've performed a great service by posting this and so many other presentations. And I have now subscribed to your channel.

Very interesting Mr. Pete, I hadn't heard of this before. Simple and ingenious at the same time.

Awesome! I have never seen this demonstrated. Great video and explanation of the forces at work.

I've waited exactly 27 yrs & 8 months to see a vid,,,, like this.... :) YAY ! GOOD !

Great demo unit. As you say this would be excellent to show kids. I am looking forward to the chain winch vid. I never stopped to think how they work, but now you got me thinking. Thanks Mr Pete!

Mr. Pete,
thank you for uploading that video. as humdrum as i thought it might be initially, it turned out to be one of your more informative and interesting videos yet. i can't wait to see the one on chain hoists.
the kids of illinois lost one of their finest teachers when you retired. but the world of youtube has gained a great one!
cheers
mike

A very interesting little demo - I often looked for some "mechanism" that could prevent the danger from the fast spinning handle when just leaving the hoist - and here it is ... and it's been there for generations, I think !

Super useful video. And thanks for showing that the distance doesn't change when the diameters are the same - I figured, but but the curiosity in me just _needed_ to see that it actually worked that way.

I can't believe I've never heard of this, or I have and just forgot like everything else. Either way, this was an awesome demonstration and incredibly informative

What a great invention and the fact that it doesn't slip or drop is a mind bender. thanks.

Thank you, Mr.Pete. I always learn something new, watching your videos. I have heard of a windlass but, not the Chinese one nor how it worked. Facinating!

I think you like teaching and spreading your knowledge.
And what wonderful knowledge it is even to this old 70 year old man.
I always learn something new.
Love the videos.
Mike

that was good,, really enjoyed it !! for got to tell ya that i enjoyed the blacksmith trip as well !! My grandpa was a tool and die man for about 45yrs,, i cut my 1st 1/2-13 thread in his shop when i was 12yrs old in the early 80's so when i see the old tools it sometimes takes me back to the time when i was around his belt-driven south bend lathe and his bridgeport with optics,, he never used a DRO and oh how i wish i could show him the solid-modeling and CAM wares i use now but doin it all by hand has always been my favorite,, i suppose thats because conventional was all i did until 17yrs ago,, hated CNC at 1st,, i dont think grandpa would like CNC work,, i think he would feel that it took away the "true skill" of making and polishing a mold,, anyway love the videos,, keep'em coming,, thanks

This is a "Two Thumbs Up" video! Mechanical advantage in a way that I had never imagined. Thanks for another great educational video.

Fascinating!!
I must get me a differential hoist for my garage. That’s a great video also.

Marvellous, never seen or heard about such a device. Thanks for putting up this excellent demonstration video.

Mrpete222 I think you are the world’s most interesting grandpa (not to mention the best shop teacher ever.) Your grandkids are super lucky!

you have a fantastic knowledge, I am a retired engineer and I have never seen this before I wish we could get back to teaching our kids the basics of how the world works,please keep up the vids you are filling in the gaps in my education

Fabulous, such a beautiful principle so clearly explained; your clear clutter free back grounds so help to focus attention.

That's a mechanism I've not seen before !
I've seen 'like' it - where the rope being pulled is wrapped around a larger drum than another rope attached to the load - so similar mechanical advantage system but I'd not seen one where the rope goes to the load and comes back to a different sized drum.
There is a variant concept used in some spring-driven clocks. on the shaft the spring acts on is a conical threaded pulley and wrapped around it is a 'rope' (possibly wire) the other end of which is wound onto another conical threaded pulley. The concept being, as the spring unwinds, it gets weaker - so the clock would slow. Via the rope between the conical threaded pulleys, as the spring unwinds and gets weaker the conical pulleys alter the mechanical advantage increasing the relative force on the second pulley to counteract the weaker force being applied to the first one. The cone angles would be the same and an angle chosen depending on how fast the spring loses its strength as it unwinds.

Very interesting and informative. The concept is so simple yet ingenious and no need for batteries or remote control.

As always excellent video. Keep them coming.

I enjoy all your videos. Thanks, and please keep them coming!

Lyle, another good one, as per usual !!! Please, always keep em coming. Your friend, Cliff

Excellent and informative as usual. Thanks,

I've always loved the chinese windlass because it gives such a great mechanical advantage with crude materials. I imagine building one from a log carved down a bit on one end. something that could be done with a hatchet by anyone.

Thanks for the interesting and informative video Lyle. Please keep them coming.

Brilliant series of videos.

Brilliant Lyle. Thanks once again. From sunny Wales

I like it! Very interesting. I always look forward to, and enjoy this series Mr. Pete. Thanks!

something we rarely think about. thanks for the time making this.

Thank you Mr. Pete. I really like this series.

Excellent series mrpete. Great explanation of the Chinese Windlass. I did notice the shaft with the central stop to prevent the rope crossing onto the adjacent diameter although you did not mention it. Thanks for sharing. regards from the UK

Great video, I am enjoying the series.

Thanks Mr.Pete! Very cool

You got my vote for this as most interesting and educational video demonstrating something so simple, and, surprisingly, so unknown... Pierre

Well done. You really do a great job. You are truly an educator!

Thank you again! Wonderful demonstration of a simple but powerful device.

Now that's pretty neat. I'm impressed that big UA-cam channels like Applied Science and AvE comment here too. You're too good to us Mr Peterson

very cool!! never seen this until now. Thanks for the video.

Very good explanation. Thanks.

Ive been wondering what would happen when there was 0 differential, but I couldnt picture it, having not yet built a model to experiment with. Seeing it "not work" made me to finally internalize how it does work. Thanks!

Mr. Pete makes learning fun!

Always a thumbs up for your vids educational not like the school i was in What a bad school it was thanks for the time you put into the videos

Thanks for wonderful explanation. Loved it.

once again you continue to inspire. I Thank You for sharing.

Super interesting! 👍

My gosh, you've explained this so well and demonstrated it so clearly! Thank you!
I've no exposure to mechanical machines like this despite being interested in how they work so cleverly
😅 When you were showing what happens if the radii were both the same, my head went PI(0)=0, but intuitively your demonstration showed that the same length down and up results in no movement
It also made me think about how a normal snow white hoist is just the smaller wheel having 0 radius - but that's technically a single pulley system with 2:1 advantage
Which made me realise
We use radius here to calculate because the length of the string for one revolution is pi*diameter (2pi*r)
But the rope loops back up so the distance is split in half
Also it made me realise: this is like having a hoist with a very very very tiny radius.
Which is like a small gear turning a big one
Oh gosh it's all linking!

Thanks Mr Pete, great info, did not know this!

Very interesting, i never seen this before looking forward to see what you have installed next.

Thanks, I had seen this before but had forgotten about it completely. It may come in handy in the future.

That's some sneaky use for shop tooling. Cool demo.

Awesome! Thanks for sharing. You are a great and wise teacher.

Hmmmmm, he says eying out stuff to apply this concept to. Thanks Mr Pete, informative as ever.

Good Job Mr. Pete was enjoyed .Thank You !

mr. pete. very cool video. keep them coming! :)

Awesome. I love it. Thank you.

My grandchildren will love it!!! thanks!!

Fascinating. Thank you.

Live and learn. Great video, thanks for sharing.

I love this series. Thank you.

i love it. I learned something here. I never knew such a machine. Thanks.

Fascinating!!

Pretty neat stuff! I bet your grandson Jordan will like learning about this hands on! Chris

This is very much like the differential pulley.
edit, Haha, I see you mentioned it at the end. Great video.

Very interesting!

Ah-ha! Brilliant. I always wondered how chain hoists work their magic, and now it's obvious. Thanks, Mr. Pete.

Thanks for the wisdom. Thanks for sharing

Very interesting. Thank you very much !

Thanks for showing the math behind it, great information.

thank you mrpete222 very cool video

A superb explanation.
I will use this for the well I have on my farm....
Thank-you

I love these little bits of information looking forward to using this applied sciencethanks

Good video. Thanks for making it.

Protagonist of new Paulette Giles book is fixing the “differential windlass” on a confederate war-widow’s farm well. The horses were thirsty. Books lead to interesting places, don’t they? Enjoyed the video. Thank you.

i must have lived a sheltered life that is the first time i have ever seen one of those.. thank you sir for sharing..

i liked it. good learning tool .

It is interesting to note that the important parameter is the *difference* between the two radii. So the example (at 6 minutes) with R = 0.625" and r' = 0.375" would function precisely the same (ignoring dynamics such as inertia, etc.) if both radii were 100" larger. ie, R = 100.625" and r' = 100.375". Of course, with such large radii, a correspondingly large amount of string would be whizzing through the pulley supporting the bucket load.+++++++++++++++++Mr. Pete - A differential thread is somewhat related. Perhaps you could add an episode to go there, too.Approaching the differential hoist from first considering the differential windlass is a brilliant teaching tactic. Good Job! Besides being a master craftsman, you are also a master teacher. I appreciate the passion you bring to producing these videos. In 30 years, I expect most of your videos will still be relevant and regularly referenced.Thanks!!

Very cool never seen one of those before.

That's a great video. Can you give the name of the book you found that in? I'm hoping I can find a digital version of it. Thank you.

Thats pretty neat Mr. Peterson

Thumbs up Mr. Pete! Now I don't have to disassemble my chain hoist to figure it out.

I have seen on our our farm in Finland that a large pole is used to lift a bucket of water from the well....what this is called I do not know but perhaps you might know....thanks for a nice demo.

Great concept

I heard a reference to this video in a recent video. Very interesting.

cool video!!!

A great example of low-tech genius design. Just the way I like it.

Thanks a lot, especially for including the formula! Could you please provide the formula for the work you shall use for a certain weight with different sized shaft and handle length?

The hoist on a job site is called a well wheel, but there is no crank. The rope goes to the ground and a worker hauls the load up from there.

Thank you for shsring, I learnt something new today

Tubalcain, great explanation on these fascinating hoists. I wanted to share a question I have with you. Since the increased number of cranks at the shaft seems to be the drawback of this system what would happen if you installed a smaller pulley to the crank shaft mated by chain drive to a larger drive pulley. Similar to how the gears on a bike are tuned to increase the speed of the rear wheel. Thus should increasing the crankshaft RPM while allowing for same handcrank input rpm and hoisting the load quicker. I imagine the input force (torque) demand would increase at the input shaft but in certain configurations it may be effective. Do you agree with this idea or do you think this would not work, and why?

very cool.. thanks ,,

That is cool. I've know about it for some time. Have intended to make one, but never did. Now I think I will. Should make a good item to put on an office desk and watch everyone that comes in play with it. :)

great video, I've never seen that before

Very good video! Was this discovered by Charlie Chan? Stay healthy my friend!

Pretty cool, filed away for future reference. Thanks!