My favourite thing about these videos is the "to be continued..." at the end, so I know I can always gain more knowledge with another video. No idea what I'd do if it said "The end" all of a sudden..
As a high functioning autistic person who struggles to visualize things in my head these videos are so unbelievably helpful. Not only are they mesmerizing to watch it helps me get an idea of movement based on a joint. The main thing I struggle to visualize is how something can move and will move.
@@user-bl4oq7fd8d i basically can't visualize at all. something so fixed and moving is why it helps me. Im not really visualizing the whole thing just how it will be able to move.
For me the visualizing part is the easiest, if i see a still frame from all sides to see how that these contraptions are put together it's very easy to visualize them moving, it's just hard to come up with them, they can be very handy when you are trying to make real parts for things you are building
@@thanoscube8573 ya I'm not sure but I've basically never had to really visualize things. So that might be a reason. Im considered a genius when it comes to computing speed, like I think really really fast its just that I struggle really bad with putting into words.
That would definitely work if you added more in series at an offset - I was looking at it being driven from the gears, which wouldn't work without some sort of guide (-pause it at about 0:11 when everything is completely lined up), since the piston can get stuck in the neutral position, or jam/break when it doesn't want to pick a direction to go
I love this so much. There are so many fascinating interfaces on this channel! Going to model these myself and print them :) Thank you so much for the inspiration!
So sad that we lost mechanical devices. Everything now has a microprocessor and sensors to do what a simple mechanical device used to be able to do effortlessly.
*i have sincerely, and severely absorbed this kind knowledge that you are inputting into “Mechanical Principles part 12”, That i, in turn, absorb that knowledge.*
2:40 Am I just blind or is there nothing translating the initial turning of the knob to the tabletop quarters? Knob-gear (lavender) turns the big table-ring gear (dark blue). The Table-ring gear (dark blue) is connected to 4 Ratio(?) gears (light blue). But the light blue Ratio gears seem to be connected to their other half (lime) via a free-moving rod. The lime part of the Ratio gears don't move at all, but the yellow gears fly around them in circles with no apparent source of energy... EDIT: Nevermind! I missed the arms (magenta) that hold the light blue, yellow, and gray gears together! That's where the energy and motion is held. Mistook it for a free-movement rod.
If you look at 2:34, you'll see that the light blue gear is attached to the quarter circles via red linkages. The yellow gear translates the rotation from the ring gear to the quarter circles.
The very first machine seems to elevate the platform above the center white link. I don't see what would make it go up. Seems to be it would just dangle off the white arms . Not rotate above them ?
I'd like to be able to see actual representations of the mechanical principle in use, like in manufacturing lines, or mechanical linkages etc. It would be nifty to see where that principle is applied in real life.
Babe wake up, mechanical principles part 12 just got dropped
Gold 💛
*I have learned the knowledge of Mechanical Principles part 12.*
Babe, are you okay? You haven't even touched your Mechanical Principles 12 yet
Ahhh hell yeah
Can't wait for mechanical principles part 13
I have obtained the knowledge of mechanical principles part 12
this never gets old
Ni siquiera la barrera del idioma nos va a detener de ganar el conocimiento de los principios mecánicos parte 12
My favourite thing about these videos is the "to be continued..." at the end, so I know I can always gain more knowledge with another video. No idea what I'd do if it said "The end" all of a sudden..
I would be scared!
@@robertsteel3563 i would mainly be sad that this incredible story ended
Cry
The end of mechanics itself
This video = 95% Knowledge, 5% Hope
This is quite inspiring. Wish these were 3D printable so one can play around with them.
Why don´t try to make it in metal (the real right way I think) ...??
@@walterretlaw4051 expensiveness
" Wish these were 3D printable so one can play around with them." - These are 3d printable...just create them yourself🤡!
.... you wish for something that is already true....
@@walterretlaw4051 ah yes let me pull out my CNC mill and laser cutter out of my ass, right this fucking instant
As a high functioning autistic person who struggles to visualize things in my head these videos are so unbelievably helpful. Not only are they mesmerizing to watch it helps me get an idea of movement based on a joint. The main thing I struggle to visualize is how something can move and will move.
Most of those mechanisms are hard to visualize for anyone 😅
@@user-bl4oq7fd8d i basically can't visualize at all. something so fixed and moving is why it helps me. Im not really visualizing the whole thing just how it will be able to move.
For me the visualizing part is the easiest, if i see a still frame from all sides to see how that these contraptions are put together it's very easy to visualize them moving, it's just hard to come up with them, they can be very handy when you are trying to make real parts for things you are building
Interesting how different one's condition can be. Simulating in my head helps me a lot with problems I encounter.
@@thanoscube8573 ya I'm not sure but I've basically never had to really visualize things. So that might be a reason. Im considered a genius when it comes to computing speed, like I think really really fast its just that I struggle really bad with putting into words.
I'm a mechanical designer of 45 years and this series is very important to someone like me. The ideas I can get from these helps me greatly.
And what´s up to highest frictional forces and the poor degrees of freedom..?
Your job title is mechanical designer?
PAAAAAART 12 DROPS AND I AM ENLIGHTENED YET AGAIN!!!!! MY BRAIN AWAITS FOR THE 13TH INSTALLMENT OF THE SERIES!!!
These videos are actually quite useful for benchmarking designs
The first one looks like a direct way for a piston to drive a wheel, nice!
That would definitely work if you added more in series at an offset - I was looking at it being driven from the gears, which wouldn't work without some sort of guide (-pause it at about 0:11 when everything is completely lined up), since the piston can get stuck in the neutral position, or jam/break when it doesn't want to pick a direction to go
It literally has cranks
i would love if these mechanisms had their names listed too, some of these genuinly could come in handy
I love this so much.
There are so many fascinating interfaces on this channel!
Going to model these myself and print them :)
Thank you so much for the inspiration!
Mesmerizing, dynamic ... just amazing stuff. If only I could actually build some of these mechanisms.
If you had a 3D printer ...
I have absorbed,gained and blessed by divine knowledge of mechanical principles part 12
A great video, I really liked the last engine, I've always seen it in movies, animations, but I didn't know how it worked!
Are you talking about the aperture mechanism?
@@mavericktjo4548 Don't get fooled by it: the cake is a lie. :D
As an Inventor, I find these videos helpful to come up with different ideas to solve problems, very useful.
Genius like always. We love your video. Hello from Ukraine!
I have absorbed the knowledge of mechanical principles part 12 🗿🍷
Very cool. Thanks for uploading these videos.
Wooow ! Great video !
Thank you so much !
👍👍👍
Could you do a time lapse or show how you rig these up? I’d love more details on your process. Thanks! Love the content!
amazing its so mesmerizing seeing how the mechanisms work
Fantastic as always!
Wow. I am proud to be a Mechanical engineer.
Level up, I have now gained the knowledge of Mechanical principles part 12.
Finally some inspiration to build my over-engineered spaceship.
Lenyűgöző összetett mozgások.Köszönöm
2:57 anyone know where i can get one of these? (asking for a friend)
This vedio is so so much good for me that I can not express 💖
great vid. can you do a video about how recliner chairs mechanism work. I could never understand the mechanics. even the foot rest.
Maquina... excelente...bakan... saludos desde Chile
Another great video, thank you
Genial, increíble, saludos.
My God, it's beautiful.
So sad that we lost mechanical devices. Everything now has a microprocessor and sensors to do what a simple mechanical device used to be able to do effortlessly.
look at these funky lil machines go
My mom walked into the room and literally this one pops up 2:56
great & interesting👍😊
respect from Gilgit-Baltistan👍❤
These renders are quite interesting to look at
I love your channel.
*i have sincerely, and severely absorbed this kind knowledge that you are inputting into “Mechanical Principles part 12”, That i, in turn, absorb that knowledge.*
I have always liked these videos.
Would love to see the live action remake
1:15 got all the ladies watching red in the face.
2:30 and 3:40 would be awesome tables even though they could take up a whole dining hall lmao
this video gives off the same vibe as "roblox car crash compilation 13"
What program all of this was modelled in?
It's amazing!
Hey, that last one is the vent covers in Star Wars! Neat.
So satisfying to watch
Love it so much !!!!
How to get stl files to 3d print these marvelous instruments?
Don’t know why, but I love this stuff! Lol
Подписка от автора "Весёлых макетов"
Первый раз не могу разобраться ,что ,за что цепляется.
You should post these as instagram reels too! Also i love everything about this channel
3:41 so that’s how the Evil Villain’s headquarters door opens.
1:45 I could see this concept also being timed for use with solar panels to maximize power production throughout the day.
2:40 Am I just blind or is there nothing translating the initial turning of the knob to the tabletop quarters?
Knob-gear (lavender) turns the big table-ring gear (dark blue). The Table-ring gear (dark blue) is connected to 4 Ratio(?) gears (light blue). But the light blue Ratio gears seem to be connected to their other half (lime) via a free-moving rod. The lime part of the Ratio gears don't move at all, but the yellow gears fly around them in circles with no apparent source of energy...
EDIT: Nevermind! I missed the arms (magenta) that hold the light blue, yellow, and gray gears together! That's where the energy and motion is held. Mistook it for a free-movement rod.
If you look at 2:34, you'll see that the light blue gear is attached to the quarter circles via red linkages. The yellow gear translates the rotation from the ring gear to the quarter circles.
Very fascinating concept
2:55 A perfect machine to replace the Internet user's left hand.
Looks like platforming obstacles in Ratchet and Clank.
Does someone know what program can I use to make stuff like this?
sooooooooooooooooooo satisfying!!!! 10/10
Que programa usa para hacer esas animaciones?
This man be posting his AutoCad and SolidWorks homework for years now.
do you have examples of different latching mechanisms?
For someone who never thought about how camera shutters and Iris doors work 👍
Request: Steady cam rig mechanism 👍🏼
Finally! Part 12
Could you please write what a program makes this modelling and animations?
1:44 эффект Шмеля - на высокой скорости воздух превращается в жидкость, а на сверхвысокой в тветрдыую субстанцию, от которой и отталкивается шмель
I like the thought that electronic principles are just simplified™ mechanical ones.
This is why I study Mechanical Engeneering
Oh my fucking god my brain just prolapsed yet again
Excellent 👍
The very first machine seems to elevate the platform above the center white link.
I don't see what would make it go up.
Seems to be it would just dangle off the white arms . Not rotate above them ?
tell me im not the only one that saw big potential at 3:01
I'd like to be able to see actual representations of the mechanical principle in use, like in manufacturing lines, or mechanical linkages etc. It would be nifty to see where that principle is applied in real life.
The teeth lift thing (or something very similar) is used in sewing machines to move the fabric without causing risk to the needle.
Engineers are the most creative persons there are
what's stopping the plantform in the first mechanism from getting stuck in the middle position when the linkages are moving over it?
I asked the same. Gravity would allow it to go down, but it would stop and pause for the top half of rotation.
what software is used to make? Any book where u derive ideas from?
where do you find all that?
How can implement a slider-joystick like a psp?
I have now gained knowledge of mechanical principles
Instant like and sub
Does the program automatically simulate this when You create geometry and connect it to eachother or do You keyframe/program the movement as well?
This is a question I would like to know the answer to!
I think in 2:06 it looks like the program simulated it because the the cylindrical object at the top is shaking a bit
@@unknownme4936 Also noticed it, but wouldn't everything be lagging if so? The rest of the animation is smooth.
@@Shadoweee Maybe this simulation software doesn't deal with free bodies that well?
@@Twas-RightHere Maybe, that's a valid point!
Класс!👍
please tell me what is the name of the program in which this is done?
thank you sooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo much for your efforts
I have gained the knowledge of Mechanical Principles part 12.
What program was used?
I have gained the knowledge of mechanical principles part 12.
Which type of modeling software you use for making this Mechanism animation.
Cool !!
1:45 A nice project for an ornithopter!
Need 3rd axes.
Wow I actually want to find real world uses for some of these
Can you say that What program did you make it with, please. Thanks
mesmerizing
You'll never shine if you don't work
Mature meme: I have gained knowledge of mechanical principles part 12
The first one needs something extra to make the arms flip upward to push the table to it's full height.
yeah, as it is right now it would just go as high as the gears
3:40 "Close the blast doors!"