What you want to do is keep the upper half normal but cut the yoke on one side at the midpoint and bend the bottom half 45 degrees. And then connect the gap with a circular curve of twice the other radius (circle at ends). What you end up with then is a quick return version of the Scotch Yoke. It will spend 3/4 of the time pumping in one direction and only 1/4 on the return stroke rather than half and half. Could be a 33% efficiency improvement if the return stroke is using less force than required.
I used my cad skills and replicated this mysterious design and no change in reciprocating motion is observed. Even for different - different angle it does not change.
I am a fan of this concepts .I hope some one can manege to prove that this is something amazing ,since car manufactures dont even pay attention to this concepts for obvious reasons ,but I belive that there is something that can be done to make this concept work .
Interesting.. running it through the old wetware simulator, the general function remains the same, but the acceleration and torque curves are a fair bit different. Peak force and therefore acceleration is shifted towards the later half of the stroke.
I think what you're looking for is impossible, as it would mean that at the end and start of it's stroke the linear motion has to change direction instantly without slowing down.
You won't get the answer ... Youll notice a pattern though . Many of these accounts videos about same mechanism or related mechanisms go silent for some reason. I think I know why
You won't get the answer ... Youll notice a pattern though . Many of these accounts videos about same mechanism or related mechanisms go silent for some reason. I think I know why
Jeez thanks for showing us the outcome
It felt like matrix 2
If nothing else, I think you may have discovered an effective mechanism to pick up dislikes on UA-cam.
What was the effect?! What a cliffhanger...
What you want to do is keep the upper half normal but cut the yoke on one side at the midpoint and bend the bottom half 45 degrees. And then connect the gap with a circular curve of twice the other radius (circle at ends). What you end up with then is a quick return version of the Scotch Yoke. It will spend 3/4 of the time pumping in one direction and only 1/4 on the return stroke rather than half and half. Could be a 33% efficiency improvement if the return stroke is using less force than required.
I used my cad skills and replicated this mysterious design and no change in reciprocating motion is observed. Even for different - different angle it does not change.
i also used my LEGO skills to replicate this design. There is absolutely no difference.
Thank you, kind stranger.
I am a fan of this concepts .I hope some one can manege to prove that this is something amazing ,since car manufactures dont even pay attention to this concepts for obvious reasons ,but I belive that there is something that can be done to make this concept work .
Interesting.. running it through the old wetware simulator, the general function remains the same, but the acceleration and torque curves are a fair bit different. Peak force and therefore acceleration is shifted towards the later half of the stroke.
Creative video, thank you:)
did it affect anything?
Go another 30 deg. My guess is same motion, reduced efficency as angle gets greater.
Please let this video be a long-winded "no" to the question in the title :')
If you pose a question, answer it.
hi. is there a.mechanism that reciprocates just like this scotchy but the horizontal linear motion is uniform for every unit angular motion?
I think what you're looking for is impossible, as it would mean that at the end and start of it's stroke the linear motion has to change direction instantly without slowing down.
Travel could be longer also.
Part 2? This is like TikTok!!
What the hell was the point of that? We wanted to see the result of the change.
AND?
"Left as an exercise for the reader" I guess 😆
Better mechanism for the hidden probe reach implant hehe
AND...?
Yes it gets stuck, mor on
still a mystery...
I don’t this guy knows the answer
What a let down...like watching a movie missing the last 10 minutes.😂
Well?????
You won't get the answer ... Youll notice a pattern though . Many of these accounts videos about same mechanism or related mechanisms go silent for some reason. I think I know why
@@samwhateverportsche Well played.
Video does not answer the question it poses at the beginning. 👎🏻
wtf man?!
Is this a joke I'm to old to understand ?
WTF happened?
You won't get the answer ... Youll notice a pattern though . Many of these accounts videos about same mechanism or related mechanisms go silent for some reason. I think I know why