I am working on explaining the principle of escapement for an educational show/program I am producing and this helped me better understand the concept. Thank you
very slick Scott-i kept smiling watching this video keeping in mind Matthias wandel soothing machine video i know they are very different but there is a sophistication in yours which i admire. defiantly earned my subscription thank you.
Well done, nice work, and I like the sense of humour with the substitute baby riding in the cradle, it makes all the difference, knowing that a "baby " is using it.
Watch the pendulum during the time lapse part at 3:44.Interesting effect that occurs when the frame rate isn't synchronised with a rotating motion. The same effect causes CRTs to look like they are flickering when filmed. Not sure If it has a name.
Nice project. I'm looking forward to seeing additional improvements that might extend the running time. what do you think about extending one of the vertical arms upwards of the fulcrum and adding a counterweight atop? you might be able to regulate how much counterweight is being applied by raising or lowering the weight in respect to the fulcrum. Have you tried that? Thumbs up , thanks for sharing.
Scott would you consider doing one to sell. Also wondering about the safety issues. When a crib rocks and should the baby get up, how will the baby stay safe with the crib rocking? Even if the crib is not rocking when baby gets up, there may be a possibility that the baby would try to climb out and possibly fall into the wheel assembly. Interested in hearing your comments. Thanks. Je
+Jerry Eisner It would need a fair amount of refinement before I would feel comfortable putting it to use. The mechanism can be more efficient, pinch points need to be blocked, etc. You could probably build something in that would trip when the basic swing is disturbed (i.e. significant activity from our passenger) and prevent from the escapement from releasing. Overall efficiency gains need to come first though . . .
you can make it go for longer by putting a simple pulley system on the weight. for example if you want it to go for twice as long make it so you have the cable come down from the spool, then go around a single pulley attached to the weight and then return up to an anchor on the frame.
Thanks for sharing this interesting project! I'm a bit curious whether adding more weight to the bottom (the bob), in addition to the simulated baby, would have any effect on negating the effects of air resistance or if it will simply cause more friction within the pivot point bearings.
This is pretty amazing. There's something really beautiful about the way you've done it. Instead of the gearing you could put the bolt axis directly on the escapement using 1/6 bolt diameter and go twice as long, but would require supporting the free end of the bolt. I would put lacquer or maybe wood glue on the remaining wood contact points to see if the harder surface makes it more efficient. If it helped , then I would epoxy aluminum cut from cans onto the contact points. Does the escapement have a name? I was looking for one like this that drives only 1 size. How long did the project take to reach this point?
Can an escapement wheel be made out of a circular saw blade? I've been contemplating building a weight powered rotisserie spit. My intuition tells me the saw blade would have to be one with a negative tooth rake, or at least a zero rake. Do you agree?
It is a wonderful idea. I was looking for applications of the escapement mechanism in architecture, and your cradle is very inspiring. If you know of any other similar projects or good references, please let me know.
A simple arm going up with a pull would allow the weight to start higher resulting in a longer run time. I'm not trying to nitpick. it's a great project. Just trying to give ideas.
Triple the time... Rather than hang the weight from the shaft/spool, run it up and over a pulley attached to a pole or tower. Add a heavier weight and run it trough a block and tackle arrangement with several "parts of line".
I am working on explaining the principle of escapement for an educational show/program I am producing and this helped me better understand the concept. Thank you
very slick Scott-i kept smiling watching this video keeping in mind Matthias wandel soothing machine video i know they are very different but there is a sophistication in yours which i admire. defiantly earned my subscription thank you.
Well done, nice work, and I like the sense of humour with the substitute baby riding in the cradle, it makes all the difference, knowing that a "baby " is using it.
Great job Scott! Keep posting! Regards from Spain!
Watch the pendulum during the time lapse part at 3:44.Interesting effect that occurs when the frame rate isn't synchronised with a rotating motion. The same effect causes CRTs to look like they are flickering when filmed. Not sure If it has a name.
Aliasing
Awesome! Thanks for video. Greetings from Finland.
Can this setup be used for driving a generator with weights?
11+ minutes! Congratulations!
Nice project. I'm looking forward to seeing additional improvements that might extend the running time. what do you think about extending one of the vertical arms upwards of the fulcrum and adding a counterweight atop? you might be able to regulate how much counterweight is being applied by raising or lowering the weight in respect to the fulcrum. Have you tried that? Thumbs up , thanks for sharing.
Scott would you consider doing one to sell. Also wondering about the safety issues. When a crib rocks and should the baby get up, how will the baby stay safe with the crib rocking? Even if the crib is not rocking when baby gets up, there may be a possibility that the baby would try to climb out and possibly fall into the wheel assembly. Interested in hearing your comments. Thanks. Je
+Jerry Eisner It would need a fair amount of refinement before I would feel comfortable putting it to use. The mechanism can be more efficient, pinch points need to be blocked, etc. You could probably build something in that would trip when the basic swing is disturbed (i.e. significant activity from our passenger) and prevent from the escapement from releasing. Overall efficiency gains need to come first though . . .
you can make it go for longer by putting a simple pulley system on the weight. for example if you want it to go for twice as long make it so you have the cable come down from the spool, then go around a single pulley attached to the weight and then return up to an anchor on the frame.
Thanks for sharing this interesting project! I'm a bit curious whether adding more weight to the bottom (the bob), in addition to the simulated baby, would have any effect on negating the effects of air resistance or if it will simply cause more friction within the pivot point bearings.
Great job ! and very interesting . I'll be watching . Good day Scott !
Scott, can you build this for me ?
This is pretty amazing. There's something really beautiful about the way you've done it. Instead of the gearing you could put the bolt axis directly on the escapement using 1/6 bolt diameter and go twice as long, but would require supporting the free end of the bolt. I would put lacquer or maybe wood glue on the remaining wood contact points to see if the harder surface makes it more efficient. If it helped , then I would epoxy aluminum cut from cans onto the contact points. Does the escapement have a name? I was looking for one like this that drives only 1 size. How long did the project take to reach this point?
I don't know which category it would fall under but it took about 2 weeks to get to this point.
What about incorporating a simple wind up clock spring? And that would be simple to scale up to larger weight(s).
This is an example of detent escapement, if anyone was looking for more information.
Can an escapement wheel be made out of a circular saw blade? I've been contemplating building a weight powered rotisserie spit. My intuition tells me the saw blade would have to be one with a negative tooth rake, or at least a zero rake. Do you agree?
It certainly seems like the right shape, not sure on the tooth angle, you could probably make most blades work with some adjustment.
I'd like to see the mechanism in an actual handwound baby swing.
Are you going to build a final machine for a hammock?
+Howard Springsteen I'd like to make a few improvements to the mechanism first, it might be a good springtime project though . . .
Great Machine beautiful work
How to make that? Can you give a pattern? I Really need that for my babys cradle.
this is awesome - well done! :)
Where can one find the plans for this design?
This is the only documentation I have right now. Thanks.
It is a wonderful idea. I was looking for applications of the escapement mechanism in architecture, and your cradle is very inspiring. If you know of any other similar projects or good references, please let me know.
Very nice!
This is amazing!
this is amazing!
This is fantastic
Very loud. Can you make a silent mechanisms? Using ropes for instance
Do you have a background in physics, or do you just learn by doing?
+Lasmamoe Civil eng "official" background, mostly I just like building things, do a lot of research and work things out as I go along.
how are you cutting gears if i might ask?
Jig saw and patience.
Good job!
When the weight goes down it could trigger another weight to begin descending and increase working time.
hi
You have a plan and this PDF to send me would make me one ok
Can it run more silently?
Yes, it would also make it more efficient. Many changes for the next version.
A simple arm going up with a pull would allow the weight to start higher resulting in a longer run time.
I'm not trying to nitpick. it's a great project. Just trying to give ideas.
+pinchflat There are several improvements I would like to make, a future version will incorporate them. Thank you.
I'll bet you have DaVinci's notebook somewhere in your library . . . :)
Energía gravitacional:convinada con energía cinética., resultado: movimiento perpétuo.
What fun just a real kick to watch
Молодец ! Привет тебе из РОССИИ !!! Очень интересно то что ты делаешь, с меня подписка и лайк !)))
You are skilful woodworking person. I'll suggest lighter weight on larger drum, better for bearings.
Triple the time... Rather than hang the weight from the shaft/spool, run it up and over a pulley attached to a pole or tower. Add a heavier weight and run it trough a block and tackle arrangement with several "parts of line".
Muito interessante.
Easiest way to get more time out of it is an arm and a pulley. Lift that wight 8ft up in the air and it'll run for 90 minutes.
cargo = kid ~ sounds right to me.
Dig a hole in the floor , all the way to China. For the weight to disappear in... And presto! : Infinite motion ...
Stick a gear box in for hours long rocking!
You would need more weight and potentially tougher (metal) parts.
This would be good for actual babies... If it didn't tick on every oscillation...