I love how ScrapMan didn't notice two things he missed in the mechanism, the upper cover for the yellow part, and the removed plastic block that causes the purple pipe to be problematic
Yes but you have a turn point in the midle while everything is blocked and you have 2 diferent point when it turns, so it minds that you can give two separate works. I mean, this type of mechanism you create it when you need it, not you create the mechanism and after you think how to use it
The difference is that the secondary wheel rotates around the same axis as the input shaft. It’s Used in watch making since it’s incremental like the first one, but is used when the output needs to be in line with the input.
It seems like a combination of the mechanism he built that is used in old film stuff (the one that converts rotational movement into increments and the other mechanism that converts rotational movement into linear movement.
@@suicidalbanananana these mechanisms often dont need a real purpose else than be buildable and precise cuz it looks for me like a test mechanism for people learning these things to build. so basically you get a building plan 3-4 months before you need to deliver this like a doctor or professor for his title to legitamently have dr. or prof. in germany if you want your master in many industrial jobs you need to do something like that if you are working in the metal industry and often this piece is only the testing for the actual build and its the meaning of them to be complex and precise cuz thats whats the test for to test you and not the mechanism. sry for my bad english im german and dont know all these words in english and google was down^^
It's a basic moving gear to solid dock mechanism. You can use it to do a solid shift of a minute hand, with the center 60 gear being constantly moving. Or a solid day shift hand, with the center 24 gear constantly moving. It's a design that allows the same goal as a Geneva device, but with a more stable transfer for higher ratio changes.
Yeah, this is how an escapement mechanism works. And the yellow part is to stop unwanted rotation and ensure that regardless of other forces outside this mechanism will not adversely affect the movement. This could be used in a clock, but an analog clicker counter seems more likely. I agree that they would likely be stacked with a mechanism that turns the next disk in the series by one tick.
Love all these mechanisms. Maybe putting the pins on bearings could help smooth out that stubborn purple pin júst a bit. But all in all quite impressed with how well it worked even on the first try! Bit late but good luck and congratz on the new home! And the 700k! I remember you not being super stoked on your surroundings way back, so hope this is a big improvement.
Hey scrapman, I'm leeching off this comment so you'll see this but the inner wheel shouldn't be attached to the big green wheel. This causes the rotation the speed up / slow down when the big green one rotates
Hey Scrapman, at 15:21 you removed a block, that block was next to the purple, and it definitely was why the purple didn't slot in, as that was the only change you made between it not working and it semi-working.
It also looks like it would have a different acceleration/deceleration than a geneva drive, it seems smoother. Maybe it could be used when the acceleration of a geneva drive is too brutal for its application.
It seems like a mechanism for mass production of some sort of item, first thing that came to my mind was some bottle filling machine, having only 1 power source it should provide regular and very high precision movements for every step it makes
Watching you build these is both satisfying and painful, lol. You have a grasp on scientific method, which saves your lack of engineering. Still love your videos. Please do more. P.S. I am a 51 year old Architect/Engineer/Mason with a massion for Science and Physics. Which is the reason why I enjoy(and hate) watching you figure these out, lol.
This "mechanisms" series you got going on reminds me of what's done on the MakersMuse with 3D printed parts. And I hope you continue to make them! Because I love watching them!
Hi Scrapman! So, recently, I've lost my ROBLOX account of 4 - 5 years (I'm still trying to get it back), and I've been kinda sad lately. But, one of your videos resurfaced on my recommended, and so I started watching again. Your videos have brought me back up and I really appreciate it. Thank you and I hope your channel surpasses 1 Mil (Also congrats on 700k). Bye!
Glad to Assist you with your Dilemma ScrapMan! This Mechanism is what we call a Rotation-Based Counting System! This Mechanism Measures 5 Full Rotations per Full Revolution (1800/360 Reduction). This Application, if utilized in Mechanical Clocks, would be used to measure One Unit of Time over Five Subunits (1/5 Reduction), which effectively means you're Measuring Seconds-per-Minute (or Minutes-per-Hour) over the Course of Five Rotations, which is Twelve Seconds (or Minutes) per Rotation. (60/5=12). Scientists considered changing the Standard Time Reduction to Fifths instead of Sixths, but later Rejected it because of Potential Inaccuracies that could add up over the course of Years. The more you know!
if you build it on a bigger scale you can mitigate a bit of that "not 100% the exact degree due to grid building" due to how much 1 degree differ from 1 meter away vs 10 meters away
I think the problem is related to the distance between the center and the pins on the big wheel, because of being limited to the block grid that distance means slight variations in angle, i feel like moving the purple pin inwards by 1 block would've put it more in line with the 36' angle difference of the rest of the pins. That said, it still made for an interesting build, keep these coming! :D
Day 4 of telling an idea for mpm: Remember that low friction race when you had to go through the gate? What about making a curling! Just make a curling stadium, some low friction stones and play!
It feels like yesterday when I subbed to this channel (2019) and scrapman is just one of this chill and not changing youtubers that I want to keep my sanity. Love you man your my favorite youtuber (2nd is mrbeast).
scrapman, i'll try to explain this system as simply as i can. this is a form of intermittent gearing (it serves a similar fuction to a geneva drive in sone ways) used for translating a constant input into a non constant(intermittent) one. the most notable example of such a mechanism being used would be on a mechanical clock. you want the second hand to only tick once every second and don't want it to move constantly, both because it would make telling the time harder and also because it would cause the spring to loose it's tension very quickly and require constant rewinding. the secondary sliding piece that interacts with the smaller pins is simply a form of ratchet to prevent it from going out of alignment or spinning freely, notice how in the original 3d rendering it makes contact with the pin just as the main arm is releasing the large pin and vice versa. i'm trying to think of an analogy for it but the best i can think of would be how on a socket wrench there is a ratchet to stop it from going backwards the wrong way. but yeah, variations of this sort of gear are sometimes seen in either analogue clocks or large industrial mechanisms that require an intermittent movement for one reason or another. i recall seeing something similar to this on a very old printing machine where a long reel of paper was fed in, it would stay still long enough for the printing to take place and then move the paper to the next section to print again in a kind of jerky/stop-start motion.
You know you're mechanically inclined when you not only understand how it works within the first minute, but also understand what went wrong and why it suddenly started working.
19:26 “Oooooh, when you start to phase through matter, thats when you know, you got a little to far with your experiment.” -Scrapman 2022 Scientists: Write that down, Write that down!!!
The hug is there to prevent it from spinning when the driving arm is not connected. You don't have any load on the disc so nothing happens (and the speed appears "improved" when it derails), but imagine that was a wheel driving up a hill. As soon as the arm releases the pin, the wheel will immediately start rolling backwards since there is nothing to prevent it from doing so.
Honestly I think the problem was that the yellow pin had a friction issue with the purple slider thingy I also believe it was that the yellow pin was on the wrong block so that is why it got the friction issue but the other pins didn’t because the yellow pin would be underneath the purple slider causing the friction issue and other pin weren’t because they were not underneath the purple slider while it was letting go of the pin to move and grab the purple pin For short: my theory is that the yellow was having the friction issue when the purple pin was in the spot to be grabbed
I'm not sure if this has any name, but it looks like it would be significantly more compact than the Geneva mechanism, since the output wheel and input are aligned and very little extends past the edges. Additionally, the Geneva mechanism is primarily good with an output that has little load on it, because it has a pretty awful mechanical disadvantage with a much longer lever arm working against it than this mechanism does. Related to the mechanical advantage, the Geneva mechanism moves in an extremely jerky way, particularly with outputs with small numbers of steps
Well, you could have stacked 5 rods with pins on each end on top of each other with bearings in between and give them a 36 degree rotation to make the circle. (and use pistons to correct the heights)
IDK if you are taking suggestions, but you guys should do another evolution trial for MPM but actually follow the path of evolution. Make a submarine and then turn it into a car and then maybe into a plane.
You should do a video where you mix up all the weird creations you’ve made and try to make them work. Like fusion evolution but with the strange creations you’ve done from history. 👍
I dunno what it is, but making these mechanisms in Scrap Mechanic is oddly satisfying. Question though, would it have made any difference if the yellow slot was also low friction instead of plastic?
You could use this on a mechanical clock, so that from a constantly spinning motor it will tick the minutes over one at a time. This way when it's half past the minute, you don't see the bottom half of 5 and the top half of 6. It will show 5 fully until it's time to tick over to 6.
This seems to be an over engineered Geneva mechanism. It’s what old timey movie projectors use to advance the film one frame quickly then hold it in place for a short time so you can see the frame. Of course the real deal goes much faster but it’s extremely impressive you made it work at all!
Scrapman, I got an idea. Make a beyblade and surround it with magnets facing outwards and use thrusters to rotate it. Use a swivel to cancel out the beys rotation and place another swivel on top of it and place some thrusters to use for changing directions (in instruments of destruction)
from what i can imagine the point of this sort of mechanism is to index, so while that yellow arm is holding the wheel you might have some action done on some other piece of equipment, sort of like an assembly line carousel.
quite often with mechanisms there is a case of: "there is a better option but it requires royalties to be paid" so companies that would use the better mechanism a lot find it's actually cheaper overall to use their own unique design even if it isn't as good in comparison
It was interesting to see! :o I'm not sure because I only did a quick research (but still more than a Karen-level research I hope) to slightly confirm the thought I had, but this mechanism seems to be the base movement made to make steam locomotives roll on the rails. It's just that the steam engine (simplified like crazy) makes the yellow hugger piece move (I guess from steam pressure that forces the yellow piston to move back and forth). Your purple part would have in the situation more interactions with the wheels, because it would have two of them "connected". The throttling force generating enough inertia to ease the process, maybe? Maybe try to make the yellow piston move back and forth next time? I could be really interesting, I'm pretty sure. Because the videos showing mechanisms maybe lack the motor, the piece that actually triggers the contraption. It's not intended to, though. Just to show the movement.
you have a turn point in the midle while everything is blocked and you have 2 diferent point when it turns, so it minds that you can give two separate works. I mean, this type of mechanism you create it when you need it, not you create the mechanism and after you think how to use it. Looks like some is used in clocks
In case you are still wondering what this thing does: It provides constant periodical rotations up to 180 degree(exclusively) per cycle. The rotation angle is configured by distance between two pivots. And, yes, you fked it up - your rotation was not 72 degree per tick and that caused almost all your problems. To fix it, you need to place the outer pivot closer to the center.
"Hug someone you care about because sometimes it just adds that extra stability in their life."
-ScrapMan, 2022
Hits hard
Wholesome
I love how ScrapMan didn't notice two things he missed in the mechanism, the upper cover for the yellow part, and the removed plastic block that causes the purple pipe to be problematic
I dont think he could have done the yellow cover without scrap mechanic crying
It’s really weird to see how unnecessarily complex this mechanism is when it accomplishes the same goal as the first mechanism you built.
Yes but you have a turn point in the midle while everything is blocked and you have 2 diferent point when it turns, so it minds that you can give two separate works. I mean, this type of mechanism you create it when you need it, not you create the mechanism and after you think how to use it
The difference is that the secondary wheel rotates around the same axis as the input shaft. It’s Used in watch making since it’s incremental like the first one, but is used when the output needs to be in line with the input.
Im pretty sure it has a smaller footprint though, so that's likely why somebody even came up with this variation.
It seems like a combination of the mechanism he built that is used in old film stuff (the one that converts rotational movement into increments and the other mechanism that converts rotational movement into linear movement.
@@suicidalbanananana these mechanisms often dont need a real purpose else than be buildable and precise cuz it looks for me like a test mechanism for people learning these things to build. so basically you get a building plan 3-4 months before you need to deliver this like a doctor or professor for his title to legitamently have dr. or prof. in germany if you want your master in many industrial jobs you need to do something like that if you are working in the metal industry and often this piece is only the testing for the actual build and its the meaning of them to be complex and precise cuz thats whats the test for to test you and not the mechanism. sry for my bad english im german and dont know all these words in english and google was down^^
It's a basic moving gear to solid dock mechanism.
You can use it to do a solid shift of a minute hand, with the center 60 gear being constantly moving.
Or a solid day shift hand, with the center 24 gear constantly moving.
It's a design that allows the same goal as a Geneva device, but with a more stable transfer for higher ratio changes.
Please try and recreate one of the most interesting looking planes ive ever seen.... the "Curtiss-Goupil Duck"
That plane looks wrong
I think he should make it to it's very interesting
That plane looks very interesting
*Put this guy on the top comments, NOW!*
It looks more like a Bat than a Duck tbh, lol
Well that's a 360 degree counter. Every full inner cycle is one "tik" on the outer.
I assume you could add more disks under it with each disk pushing the next every 10 rotations to create an anolog rotation counter then.
@@DanielMether like a clock
Yeah, this is how an escapement mechanism works. And the yellow part is to stop unwanted rotation and ensure that regardless of other forces outside this mechanism will not adversely affect the movement. This could be used in a clock, but an analog clicker counter seems more likely. I agree that they would likely be stacked with a mechanism that turns the next disk in the series by one tick.
I thought it was a clock/watch mechanism
Love all these mechanisms. Maybe putting the pins on bearings could help smooth out that stubborn purple pin júst a bit. But all in all quite impressed with how well it worked even on the first try!
Bit late but good luck and congratz on the new home! And the 700k! I remember you not being super stoked on your surroundings way back, so hope this is a big improvement.
Nice hearing from you again Otto!
last time putting bearings on the pins created more trouble than it solved
the pins started glitching out
I think it may just be the inaccurate degrees due to the 90 degree build grid.That's why some of them work flawlessly but others are a bit off.
Ey Nederland
Hey scrapman, I'm leeching off this comment so you'll see this but the inner wheel shouldn't be attached to the big green wheel. This causes the rotation the speed up / slow down when the big green one rotates
Time for ScrapMan to tackle the Antikythera mechanism. He is ready for a real challenge.
Indeed.
I imagine someone on Beseige has at least made an attempt
@@g4mmalotus937 I will have to explore that
Hey Scrapman, at 15:21 you removed a block, that block was next to the purple, and it definitely was why the purple didn't slot in, as that was the only change you made between it not working and it semi-working.
It's because that point in the circle was rubbing against the stationary frame, among a few others that didn't cause dramatic failures.
Yeah, it was making just a bit extra friction so it would not go as far
Having that mechanism on repeat in the corner like that was a great idea!! Love the production value.
9:00 10 points for scrap mechanics for amazing timing
and 10 more points for comedy
He would get 10 more if he added BONUS DUCKS
The mechanism seems to do the same work as a Geneva drive so probably in some clocks or something
It’s always the clocks that have the weird ones
I'm inclined to agree. Especially because a Geneva drive would require another pivot which there might not be space for.
It also looks like it would have a different acceleration/deceleration than a geneva drive, it seems smoother. Maybe it could be used when the acceleration of a geneva drive is too brutal for its application.
These sort of mechanisms are also often used in factories / automated production lines
@@suicidalbanananana it's reminiscent of a sequencing timer/drive. Using mechanical input instead of electrical.
Id love to see you build some clock or watch or whatever using some of these mechanisms
my favorite scrapman quotes:
"if you try not to die, you're less likely to die"
21:12
Remember analog clocks? That´s the mechanism, that makes the timing on the pointers to match seconds. Also it´s making the clicking noise.
I don't think it is the same one but it is similar
It seems like a mechanism for mass production of some sort of item, first thing that came to my mind was some bottle filling machine, having only 1 power source it should provide regular and very high precision movements for every step it makes
You're sure you haven't mistaken a filling machine for a rinsing machine?
That seems like a good idea. It'd give a good use to the 'hug' and explain why the blue rod has a hole in it.
Watching you build these is both satisfying and painful, lol.
You have a grasp on scientific method, which saves your lack of engineering.
Still love your videos. Please do more.
P.S. I am a 51 year old Architect/Engineer/Mason with a massion for Science and Physics. Which is the reason why I enjoy(and hate) watching you figure these out, lol.
This "mechanisms" series you got going on reminds me of what's done on the MakersMuse with 3D printed parts.
And I hope you continue to make them! Because I love watching them!
Thumbs up for ScrapMan's quote of the day.
20:35 It's faster because the drive is based no the wheel instead of the base. Faster the wheel faster the drive.
Ooooh more mechanisms!
I think it would be interesting if they did a multiplayer monday where they have to choose one of these mechanisms and implement it into a vehicle
Genius
no, no, they have to use one of these mechanisms to power the vehicle, like to spin a wheel or create a walker
@@maxbarnes9266 yeah, that's what i meant
@@alexplosion_ITA oh cool 😎
@@maxbarnes9266 or do steering
Hey scrapman please re create the thunder trax by air hogs!! Love these videos keep up the good work!!
Hi Scrapman!
So, recently, I've lost my ROBLOX account of 4 - 5 years (I'm still trying to get it back), and I've been kinda sad lately. But, one of your videos resurfaced on my recommended, and so I started watching again. Your videos have brought me back up and I really appreciate it. Thank you and I hope your channel surpasses 1 Mil (Also congrats on 700k). Bye!
Beginning to think that adding some of these mechanisms together to make an actual working mechanical clock would be cool.
I love these mechanisms please keep doing this series super satisfying and intriguing
Glad to Assist you with your Dilemma ScrapMan! This Mechanism is what we call a Rotation-Based Counting System!
This Mechanism Measures 5 Full Rotations per Full Revolution (1800/360 Reduction). This Application, if utilized in Mechanical Clocks, would be used to measure One Unit of Time over Five Subunits (1/5 Reduction), which effectively means you're Measuring Seconds-per-Minute (or Minutes-per-Hour) over the Course of Five Rotations, which is Twelve Seconds (or Minutes) per Rotation. (60/5=12).
Scientists considered changing the Standard Time Reduction to Fifths instead of Sixths, but later Rejected it because of Potential Inaccuracies that could add up over the course of Years.
The more you know!
if you build it on a bigger scale you can mitigate a bit of that "not 100% the exact degree due to grid building" due to how much 1 degree differ from 1 meter away vs 10 meters away
This could be a series especially if you hook the contraptions up to other contraptions
21:18 this is the face of a man who needs a hug
_*sending virtual hug_
I think the problem is related to the distance between the center and the pins on the big wheel, because of being limited to the block grid that distance means slight variations in angle, i feel like moving the purple pin inwards by 1 block would've put it more in line with the 36' angle difference of the rest of the pins. That said, it still made for an interesting build, keep these coming! :D
That hug bit put some tears in my eyes...
congratulations on 700k subscriber Scrapman! i remember the first time i watched your video you were at like 200 or 300k subs youve grown so much
@@saipranavpalla1467 he will, don't have to imagine it, will be within the next year hopefully!
Day 4 of telling an idea for mpm:
Remember that low friction race when you had to go through the gate?
What about making a curling! Just make a curling stadium, some low friction stones and play!
They already did this, just so you know!
@@maxbarnes9266 when? Can you paste me link here pls?
@@burak1382 sure: th-cam.com/video/JqrkS09mtEg/w-d-xo.html
That mechanism is used for clock tower clocks because it’s ticking in the animation
why not combine all the mechanisms to create something
Yes full drive train!
This was a great video all around but the best was "But ask if they want a hug first"
It feels like yesterday when I subbed to this channel (2019) and scrapman is just one of this chill and not changing youtubers that I want to keep my sanity. Love you man your my favorite youtuber (2nd is mrbeast).
Wow..it got real deep at the end :D .. great video as always :)
Thanks for the life lesson at the end
I think that channel just makes hundreds of different, sometimes over complicated ways to solve one problem
Neve have I ever played this game or plan on it. But I've watched your game plays multiple times a day for the past 3 months
scrapman, i'll try to explain this system as simply as i can. this is a form of intermittent gearing (it serves a similar fuction to a geneva drive in sone ways) used for translating a constant input into a non constant(intermittent) one. the most notable example of such a mechanism being used would be on a mechanical clock. you want the second hand to only tick once every second and don't want it to move constantly, both because it would make telling the time harder and also because it would cause the spring to loose it's tension very quickly and require constant rewinding. the secondary sliding piece that interacts with the smaller pins is simply a form of ratchet to prevent it from going out of alignment or spinning freely, notice how in the original 3d rendering it makes contact with the pin just as the main arm is releasing the large pin and vice versa. i'm trying to think of an analogy for it but the best i can think of would be how on a socket wrench there is a ratchet to stop it from going backwards the wrong way. but yeah, variations of this sort of gear are sometimes seen in either analogue clocks or large industrial mechanisms that require an intermittent movement for one reason or another. i recall seeing something similar to this on a very old printing machine where a long reel of paper was fed in, it would stay still long enough for the printing to take place and then move the paper to the next section to print again in a kind of jerky/stop-start motion.
21:10 the best advice for life.
Also what is the name of the music in this part?
Im dying lol its the purple piece that goes in the pipe in the end is falling out
Sudden unexpected wholesome content at the tail end.
You know you're mechanically inclined when you not only understand how it works within the first minute, but also understand what went wrong and why it suddenly started working.
I love the hug=stability near the end
The yellow part needs to be retained on top, so it doesn't slip out the way it did.
Scrapman looks like a happy grandpa seeing his creation working
Gearboxes would be a good use for this machine
These videos are so satisfying...
this mini series is sooooo cool
Happy 700k scrapman
Sometimes a hug is all that keeps you going.
13:20 OH MY GOD YOU FINALLY HEARD ME SCREAMING AT THE COMPUTER!
19:26
“Oooooh, when you start to phase through matter, thats when you know, you got a little to far with your experiment.”
-Scrapman 2022
Scientists: Write that down, Write that down!!!
scrapman you have nice eyes and i love the way you build things
This would be a more complex mechanism, But I would love to see a combination lock mechanism.
The hug is there to prevent it from spinning when the driving arm is not connected. You don't have any load on the disc so nothing happens (and the speed appears "improved" when it derails), but imagine that was a wheel driving up a hill. As soon as the arm releases the pin, the wheel will immediately start rolling backwards since there is nothing to prevent it from doing so.
Honestly I think the problem was that the yellow pin had a friction issue with the purple slider thingy
I also believe it was that the yellow pin was on the wrong block so that is why it got the friction issue but the other pins didn’t because the yellow pin would be underneath the purple slider causing the friction issue and other pin weren’t because they were not underneath the purple slider while it was letting go of the pin to move and grab the purple pin
For short: my theory is that the yellow was having the friction issue when the purple pin was in the spot to be grabbed
I'm not sure if this has any name, but it looks like it would be significantly more compact than the Geneva mechanism, since the output wheel and input are aligned and very little extends past the edges. Additionally, the Geneva mechanism is primarily good with an output that has little load on it, because it has a pretty awful mechanical disadvantage with a much longer lever arm working against it than this mechanism does. Related to the mechanical advantage, the Geneva mechanism moves in an extremely jerky way, particularly with outputs with small numbers of steps
Man u r the best mechanisms recreator
Can you create the Rutan Boomerang?
Seeing the back end come out from the start and thinking "scrapmaaaaan, why you looking the wrong way!"
Deletes Block Dosnet Realise that Block Was the Whole Problem great vid scrapmam XD
Realy Cool! Enjoyed it!
I think that you should put this creation on the workshop. Thanks!
Well, you could have stacked 5 rods with pins on each end on top of each other with bearings in between and give them a 36 degree rotation to make the circle. (and use pistons to correct the heights)
This is why it's called scrap mechanic...
Cause of all the mechanisms.
Also realizing about the purple bit was funny to me
Always in time with my snack time
IDK if you are taking suggestions, but you guys should do another evolution trial for MPM but actually follow the path of evolution. Make a submarine and then turn it into a car and then maybe into a plane.
Why you don't use some of the mechanisms you learned to create some sort of machine that does something useful?
Nice job by the way 👍👌
This seems like something that'll be useful for clocks/watches
You should do a video where you mix up all the weird creations you’ve made and try to make them work. Like fusion evolution but with the strange creations you’ve done from history. 👍
Try making a piano tile mechanism. It’s actually a quite interesting mechanic!
I dunno what it is, but making these mechanisms in Scrap Mechanic is oddly satisfying. Question though, would it have made any difference if the yellow slot was also low friction instead of plastic?
13:06 FINALLY!!!
I really liked this one. Very complicated in scrap mechanic
You could use this on a mechanical clock, so that from a constantly spinning motor it will tick the minutes over one at a time. This way when it's half past the minute, you don't see the bottom half of 5 and the top half of 6. It will show 5 fully until it's time to tick over to 6.
Hi ScrapMan! I hope you’re having a great day 70!
A EARLY UPLOAD? great stuff man, nice to have it erlier cus it's not midnight when I watch the video lol.
Ok, now with a collection of these, you should put together a mouse trap esk world for multiplayer Monday.
This seems to be an over engineered Geneva mechanism. It’s what old timey movie projectors use to advance the film one frame quickly then hold it in place for a short time so you can see the frame. Of course the real deal goes much faster but it’s extremely impressive you made it work at all!
Scrapman, I got an idea. Make a beyblade and surround it with magnets facing outwards and use thrusters to rotate it. Use a swivel to cancel out the beys rotation and place another swivel on top of it and place some thrusters to use for changing directions (in instruments of destruction)
The purple one just didn't like hugs.
One mistake i saw in your version is that the input is on the output, in the original that's probably not the case
When you had more wiggle room, the thing couldn’t pull it enough, when you changed it to the big ones it had more room to pull it further
Congrats on 700k sub scrapman
from what i can imagine the point of this sort of mechanism is to index, so while that yellow arm is holding the wheel you might have some action done on some other piece of equipment, sort of like an assembly line carousel.
possibly this mechanism could be used in a revolver type situation, where the "yellow" pin places in a bullet to the drum?
Scrapman bumping Into The Long thing and then saying ow thats a good sign XD
Purple just built different 😎
quite often with mechanisms there is a case of: "there is a better option but it requires royalties to be paid" so companies that would use the better mechanism a lot find it's actually cheaper overall to use their own unique design even if it isn't as good in comparison
Are any other engineers yelling at the screen half way through the vidro?! Lol
It was interesting to see! :o
I'm not sure because I only did a quick research (but still more than a Karen-level research I hope) to slightly confirm the thought I had, but this mechanism seems to be the base movement made to make steam locomotives roll on the rails. It's just that the steam engine (simplified like crazy) makes the yellow hugger piece move (I guess from steam pressure that forces the yellow piston to move back and forth). Your purple part would have in the situation more interactions with the wheels, because it would have two of them "connected". The throttling force generating enough inertia to ease the process, maybe? Maybe try to make the yellow piston move back and forth next time? I could be really interesting, I'm pretty sure.
Because the videos showing mechanisms maybe lack the motor, the piece that actually triggers the contraption. It's not intended to, though. Just to show the movement.
you have a turn point in the midle while everything is blocked and you have 2 diferent point when it turns, so it minds that you can give two separate works. I mean, this type of mechanism you create it when you need it, not you create the mechanism and after you think how to use it. Looks like some is used in clocks
I love these machine type builds but they’re kind of individual. You should make a vid where you use these machines in a practical way.
Use it for a mechanical sensor based timer for a maze exit. So that the exit only is open on major pins. Then use that in a constantly changing maze
In case you are still wondering what this thing does: It provides constant periodical rotations up to 180 degree(exclusively) per cycle.
The rotation angle is configured by distance between two pivots. And, yes, you fked it up - your rotation was not 72 degree per tick and that caused almost all your problems.
To fix it, you need to place the outer pivot closer to the center.