Brilliant! So the spring/weight puts energy into the hair spring which causes the pallet to oscillate back and forth with weight causing the escapement wheel to push against the pallet and hold it in place until the energy in the hair spring can push the pallet out of the way of the escapement wheel. The mass on the balance wheel (when actually balanced) then regulates the rate of the motion and, thus, the accuracy. I love it!
I used the files of this author as a basis - www.myminifactory.com/object/3d-print-swiss-lever-escapement-201013 My files can be downloaded here - drive.google.com/drive/folders/1Do7NP9oTvcqLYfgWy4bN4XQslBqhhdwh
Bonjour, je ne comprenais pas pourquoi vous aviez un axe de 3mm et deux de 4mm, mais j'ai compris qu'il fallait laisser de la place pour faire tourner l'ancre , je vais essayer de faire trois axes de 4mm et profiter du pignon haut pour les crochets . Sinon félicitations , bonne réalisation ..
This is not a watch, it is only a lever escapement. There is a link with STL files in the video description - drive.google.com/drive/folders/1Do7NP9oTvcqLYfgWy4bN4XQslBqhhdwh You can order a 3D print and assemble it yourself. But you can search on UA-cam, many people make real watches and much more interesting than this. Some even make them from wood and on a 3D printer, there are a lot of watchmakers, search on UA-cam.
The period depends on the weight of the kettlebell. But in order to reduce this, the details must be more carefully done. The oscillation period is also changed by the spring - its thickness and length.
Mechanisms with a retractable cord have a second spring. When the cord is pulled out, this spring is compressed, when released, the mechanism works due to the second spring. In mechanical watches, there are two springs: one for winding the mechanism - a power one, the second small and weak (like mine) is needed for the balance-pendulum.
@@chandradeepb3622 Sorry, I'm working on a new topic now. I think you can easily find the necessary explanatory video, there is plenty of content about clockwork mechanisms on UA-cam.
Franko Walker This is just a model for fun. I would like to make a larger model and more careful execution, for example in Plexiglas. The fact is that parts made on a 3D printer do not have sufficient accuracy. At the same time, the Swiss Lever Escapement is an amazing and beautiful mechanism.
Friends, if you are interested in the development of my channel, you can support it here - buymeacoffee.com/graindiose
Brilliant! So the spring/weight puts energy into the hair spring which causes the pallet to oscillate back and forth with weight causing the escapement wheel to push against the pallet and hold it in place until the energy in the hair spring can push the pallet out of the way of the escapement wheel. The mass on the balance wheel (when actually balanced) then regulates the rate of the motion and, thus, the accuracy. I love it!
What a great magnification of a small mechanism, very nice.
Well, for the first time, I understand how a clock works!! Thanks!!
I used the files of this author as a basis - www.myminifactory.com/object/3d-print-swiss-lever-escapement-201013
My files can be downloaded here - drive.google.com/drive/folders/1Do7NP9oTvcqLYfgWy4bN4XQslBqhhdwh
thanks for sharing nice build!
A heavier wheel is slower cause has bigger amplitude , i think tha twas the lesson,,
Great demosntration
@@anteneupitra yes
Wow! Amazing presentation on the movement mechanism.
A imaginação não tem limites muito muito obrigado.
I really appreciate you sharing your stl files. Learning is for everyone
Well done and a good presentation. I enjoyed it.
I would never have been able to invent such a thing...
Me too 😜
GÉNIAL !
J’ADORE !
⭐️⭐️⭐️⭐️⭐️⭐️⭐️⭐️
Sophisticated construction
Bonjour, je ne comprenais pas pourquoi vous aviez un axe de 3mm et deux de 4mm, mais j'ai compris qu'il fallait laisser de la place pour faire tourner l'ancre , je vais essayer de faire trois axes de 4mm et profiter du pignon haut pour les crochets . Sinon félicitations , bonne réalisation ..
Диаметр оси не принципиален.
@@grain-diose Ah bon , j'aurais pourtant cru , desolé
very nice!
Ĉu tiu horloĝ-aparato estas akirebla de mi?
Se Jes, kiom ĝi kostas kaj kia maneiro estas pagebla?
Dank'al!
This is not a watch, it is only a lever escapement. There is a link with STL files in the video description - drive.google.com/drive/folders/1Do7NP9oTvcqLYfgWy4bN4XQslBqhhdwh
You can order a 3D print and assemble it yourself. But you can search on UA-cam, many people make real watches and much more interesting than this. Some even make them from wood and on a 3D printer, there are a lot of watchmakers, search on UA-cam.
Just now on the right in similar UA-cam they showed an interesting lever escapement:
ua-cam.com/video/LkObBQT9-YU/v-deo.html
Bastante didáctico el montaje y la práctica, dónde lo puedo conseguir? Gracias
impresora 3d. Archivos en la descripción.
Очень классное видео !
Is there a way to make it less loud and adjust the period without change the weight of the inertia wheel?
The period depends on the weight of the kettlebell. But in order to reduce this, the details must be more carefully done.
The oscillation period is also changed by the spring - its thickness and length.
Nice!
Beautifull !!
Good 👍👍👍👍👍
super grain like
Isn't this how a retractable cord also works, more or less?
Mechanisms with a retractable cord have a second spring. When the cord is pulled out, this spring is compressed, when released, the mechanism works due to the second spring. In mechanical watches, there are two springs: one for winding the mechanism - a power one, the second small and weak (like mine) is needed for the balance-pendulum.
@@grain-diose it would help a lot if you would show how a retractable cord works through your simplistic demonstrations. Thank you!
@@chandradeepb3622 Sorry, I'm working on a new topic now. I think you can easily find the necessary explanatory video, there is plenty of content about clockwork mechanisms on UA-cam.
В последнее время мало видео.
So how much weight is required for exact 60 second
HUH
🌟🌟🌟🌟🌟🌟🌟
Cool. if only there was a practical use for it. (ha ha ha)
A gravity battery in a pit or a tower ?
Franko Walker
This is just a model for fun. I would like to make a larger model and more careful execution, for example in Plexiglas. The fact is that parts made on a 3D printer do not have sufficient accuracy. At the same time, the Swiss Lever Escapement is an amazing and beautiful mechanism.
@@grain-diose It's such an intricate device, The inventor was an absolute genius.
It revolusionised time keeping.
Isnt this how a retractable cord works more or less?
@@chandradeepb3622 I've no idea, but it's how mechanical clocks have worked since the late 1200's.
Energia infinita