Beautiful. If we use the support in the form of two very long stretched strings instead of a runway, excessive weight would always be at the lowest point (almost). But it had to not work since nobody does that. It's just an idea.
@@asbcustom First of all, you do not need a grinder for planes and measuring plate to make a balancer . Secondly, if the body is almost accurately balanced, the movement stops in virtually any position of the flywheel. I intuitively sense that when leading the strings, this moment would be more precisely defined. Practically not to be performed due to the elasticity of the strings. I'm not native English as you can see.
English is my second language also, so I regret that I can't follow your comments very well. Your second point is correct, you might watch the video again to see that this is what I'm showing. This method of achieving balance is well established in industry and aerospace, I didn't just make it up.
Проверка таким приспособлением очень поверхностная, приблизительная. Ведь суммируется кривизна тонвала с дисбалансом маховика. Маховик может быть идеально отбалансированным, а тонвал кривым и наоборот.
А как тогда тон вал исправить, особенно если он каленый или сделан из хрупкой стали? Как по мне просто отбалансировать и таким методом не плохо. Само собой есть и лучшие методы, да их много. Но я не механик, не знаю. Для меня и такого было бы достаточно.
Great job, Peter! Colossal work!👍👍👍
OK, let's watch!
Thank you!
Nice tools.
Thanks again!
Beautiful.
If we use the support in the form of two very long stretched strings instead of a runway, excessive weight would always be at the lowest point (almost).
But it had to not work since nobody does that.
It's just an idea.
Interesting concept, please expand on how gravity would act differently upon the capstan when using string?
@@asbcustom
First of all, you do not need a grinder for planes and measuring plate to make a balancer .
Secondly, if the body is almost accurately balanced, the movement stops in virtually any position of the flywheel.
I intuitively sense that when leading the strings, this moment would be more precisely defined.
Practically not to be performed due to the elasticity of the strings.
I'm not native English as you can see.
@@asbcustom
And the fact that if there are magnets in the flywheel, the ferromagnetic string would falsify the measurement.
English is my second language also, so I regret that I can't follow your comments very well. Your second point is correct, you might watch the video again to see that this is what I'm showing. This method of achieving balance is well established in industry and aerospace, I didn't just make it up.
@@asbcustom
I know it :)
This is not a criticism is rather a way to say anything but the praise of your workshop skills.
I like your movies.
Проверка таким приспособлением очень поверхностная, приблизительная. Ведь суммируется кривизна тонвала с дисбалансом маховика. Маховик может быть идеально отбалансированным, а тонвал кривым и наоборот.
Even a banana attached to a hammer and sickle can be balanced, what are they teaching you in those universities?
А как тогда тон вал исправить, особенно если он каленый или сделан из хрупкой стали? Как по мне просто отбалансировать и таким методом не плохо. Само собой есть и лучшие методы, да их много. Но я не механик, не знаю. Для меня и такого было бы достаточно.
I fully support it, Peter!😅@@asbcustom
Yasou Vadim, nice to hear from you!
@@asbcustom Can you do a video on that please? 😂