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PLEASE EXPLAIN IT TO ME....JLC PCB IS CHINESE SERVICE MEANS YOU HAVE TO PAY ONLINE ....HOW DO U EVEN DO THAT..I MEAN I HAVE A ATM CARD BUT IT'S NOT TAKING IT....GOOGLE PAY IS THERE BUT ...I CAN'T EVEN ADD MY CARD THESE...PLEASE EXPLAIN
The idea isn't new but I like that you're DIY'ing it. The high quality ones I've seen have the shocks angled perpendicular to the ground on the forward spin so they bite and absorb into the surface better. I would also either go with narrow wheels or increase the number of "spokes" to support the wide wheel base since they're hinged and not a solid connection spoke.
Brilliant Concept!! Excellent design.....You are the future of your Nation so keep on working on the similar projects.....I will share your videos with all my colleagues....hope you get good numbers of subscribers and followers.....
The idea is very intriguing ❤! Also something i must say, the shock absorbers allow the mass of the wheel (centre of mass) itself to move anywhere on the plane of rotation this means at high speeds the wheel’s centre of mass would be flung away from the hub bearing. Meaning the car would start hopping instead of rolling if u getting it spinning fast enough 😅
Thank you so much, Max! Your support and feedback mean a lot, especially coming from a fellow creator. I'm really glad you enjoyed the project and the video. Looking forward to seeing more of your amazing work as well! 🔥
1st thought without watching anything yet: This can't work because the tire would never be on center with the hub and you'd never get a smooth ride at speed. That said, at very slow speeds doing something like rock crawling wheels like these could absolutely work well.
you'll need better balance and maybe apply some camber. the centrifugal force around turns and downforce will tighten the suspension in the wheels, and offroading might just be backflips until you get over the obstacle. could try to make the wheels go faster with more downforce and pressure, but then you'll need serious differential set-ups fot curves.
nice idea..perhaps the design of the wheels can be improved to ensure its stability and rigidness..as per my observation ...first..the ball end of the shocks should be eliminated as it promotes variable axis movement..instead use cylindrical shims..these should hold the both end of the shocks more rigid to the rim flanges and center hub at the hex housing...2nd..maybe the wheels is better of with rubber tyres..with soft foam inserts to further enable stabilizing the rolling resistance and jolts from surfaces...only then once the wheels are near fully stable..u can start to play with the spring rates and shock oil viscocity...to get the exciting motion damping experience and uniqueness from the wheels in countering the unsprung weight it bares on the wheel hex and hub....hope my 2 cents sparks new idea for u...have a great days ahead..and keep up the great videos.
Not really. It’s been tested before many times and it makes zero sense. There’s tons of issues just looking at the design: much more rotational weight, much more unsprung weight, inconsistent suspension absorbing at certain wheel angles, weak lateral rigidity, lateral force shock shaft stiction, shock shafts being drug through dirt, buying extra shocks. There’s so many great reasons why this isn’t a useful design idea
I've seen a similar concept used to a really good effect. In a 1 pound/454 gram combat robot/battle bot called cheesecake, the rims of the wheels are 3d printed (more than likely TPU, but I'm not sure) and have 3 spokes that are springy. they work incredibly well at preventing too much shock from traveling through the wheel and damaging the axles axels or the motor. Combat robotics, especially at the one pound (454 grams) deal with incredible forces, being hit with rotating weapons that store insane amounts of energy, have incredibly powerful weapon and drive motors (even weaker drive motors can spin their tires against the ground),and LiPo batteries can only be used a hand full of times before they are too burnt out. In this harsh field, where a full suspension assembly would be too complex, heavy, and prone to failure, the springy wheels are phenomenal.
The components of normal force of mg is always at an angle with the shockers so how would the spring get pressed only on three points on wheels it is usefulo
Bhai agar shoker tut gaye toh isse bhut bada hadsha hosakta hai or jaan bhi ja sakti hai isse acha toh normal shoker hi thik hai. Bhai hm toh apna shok hi sheh lenge. 💯💯💯
That was a very cool video, man! I had a feeling right away that the wheels wouldn't work. Maybe with more shock absorbers and fastened in a much sturdier way.
Very nice and elegant work! 😉👍 But wouldn't you want to separate the electric motors? Make two axles, two belts, one motor would drive the right wheel and the other motor would drive the left wheel. Then the whole car could make sharper turns much more easily. This would be an easier solution for off-road than installing a differential, because the differential will spin without locking. And you could programmatically adjust the power to each wheel, e.g. put more power to the left wheel when turning right.
I think with the shock absorbers angled around the circle the way they are, you would probably want ones that are neutral in the center of their travel so that they can resist motion on extension and compression based on braking versus acceleration forces. Don't quote me on that but it feels like you don't want their natural position to be at full extension.
softer spring rate would help alot ..... and some way to keep the rim centred above the hub ....... super cool idea anyway ..... thank you for sharing 😊
Check out Softwheel and GeoOrbital wheels. Torsional rigity wasn't there. As someone else had pointed out as well, without using the same words. Softwheel looks like the wheel side is directly attached to the rim of the wheel. That might be key.
I wonder how gyroscopic procession will affect this. You might find that the forces are being applied at 90 degrees to the ground, and the wheels will just slide forward relative to the axle.
If you're using a 3D printer, it would have been better to design compliant wheel hubs with multiple spokes that would absorb impacts. The biggest issue I see is axle pulling the shocks apart under heavy torque.
What is the work of a shock absorber? It absorbs road shocks. You used this shock absorber in a place where it doesn't absorb the shock. In the car, a lot of it is absorbed by the rubber, but the shock absorber can never absorb all of it. It's like if you build a car and put thousands of springs on iron wheels, you won't be able to stop the vibration
I think the concept will doesn’t work because of the centrifuge forces implied on the rotational axis of the wheels, also it have several vector forces aiming in all directions on the same axis, so the shocks absorbers just tend to stiff and doesn’t absorb the impacts… and on top of that, if the rotation of the wheels are faster, the system becomes less effective because the centrifuge forces are more strong…
maybe the design could be modified to be more resistant to torsion. (adding an extra 3 coilovers, while keeping the number of hub mounting points at 3.)
The suspensions are at their max so they wont provide any travel on the bumps because is one trys to move down other two will stop it. Although you have kept them at an angle but at such scale that wont provide any major benefit. The suspension is not providing both up and down motion, its providing only down motion for the vertical and no up motion for the other two. So check the suspension travel. Cant say anything about the stability though.
I like to see what’s promised in these videos. I didn’t see any demonstration of the practicality of the suspension in the wheels. What were you attempting to show with the shock wheels?
Very nice! Except you never really shown or talked much (at all?) about how it worked. Might need to compare to a version with regular wheels. I was left hanging as to whether this ended up being a good idea or not.
Нельзя смещать ценр масс колеса! Это работать будет только на очень низких скоростях вращения колеса. А так же колесо не будет иметь устоичевость к поперечным нагрузкам.
@@proknow if the wheel is made of TPU then there is no need of spring it is not required. but you can try making it into 3 parts so that there will be some action from springs
I've put a lot of time and effort into creating this video, so I'd really appreciate it if you could show your support by liking, sharing, and subscribing to our channel for more content like this. You can also find us on Facebook, so please show your support there as well: facebook.com/diy.proknow
Please please make a fpv drone please please please please please please please please please please please please please please please please please 🥺
Please make fpv drone
Nice video and 3d printed parts. But how those wheels performs? That was the point and you missed it.
this was sopposed to demonstrate your idea and test it, but you instead built a whole rc car and didnt test it at all 😔
PLEASE EXPLAIN IT TO ME....JLC PCB IS CHINESE SERVICE MEANS YOU HAVE TO PAY ONLINE ....HOW DO U EVEN DO THAT..I MEAN I HAVE A ATM CARD BUT IT'S NOT TAKING IT....GOOGLE PAY IS THERE BUT ...I CAN'T EVEN ADD MY CARD THESE...PLEASE EXPLAIN
The idea isn't new but I like that you're DIY'ing it. The high quality ones I've seen have the shocks angled perpendicular to the ground on the forward spin so they bite and absorb into the surface better. I would also either go with narrow wheels or increase the number of "spokes" to support the wide wheel base since they're hinged and not a solid connection spoke.
Brother how would it absord shock if he is using an hard material as rim for the whell
I like how the cameraman is running behind the car 😂
😂😂
Brilliant Concept!! Excellent design.....You are the future of your Nation so keep on working on the similar projects.....I will share your videos with all my colleagues....hope you get good numbers of subscribers and followers.....
Very creative way of using suspension 😃
Loved it ❤️
Glad you liked it Sahil 😀
The idea is very intriguing ❤! Also something i must say, the shock absorbers allow the mass of the wheel (centre of mass) itself to move anywhere on the plane of rotation this means at high speeds the wheel’s centre of mass would be flung away from the hub bearing. Meaning the car would start hopping instead of rolling if u getting it spinning fast enough 😅
This was exactly my first thought.
14:58 was nice🤣🤣🤣😅😅😅😂😂😂
9:29 What's background sound 😮😍😍😍
Отличная красивая работа! Получил эстетическое удовольствие)
Fabulous work, brother! I admire every bit of effort you put into this project and video...
Your video quality and editing are on another level 🔥
Thank you so much, Max! Your support and feedback mean a lot, especially coming from a fellow creator. I'm really glad you enjoyed the project and the video. Looking forward to seeing more of your amazing work as well! 🔥
@@proknow Always at your corner with support :)
More projects coming from my way as well. Thank you!
Thank you🙏🙏
I found you today and subscribed immediately. You are awesome! Very fun build! Shukria.
1st thought without watching anything yet: This can't work because the tire would never be on center with the hub and you'd never get a smooth ride at speed. That said, at very slow speeds doing something like rock crawling wheels like these could absolutely work well.
Hello its Nasa
And I spooted you are doing such things and you are under arrest 😂😂
😂😂🤣
you'll need better balance and maybe apply some camber. the centrifugal force around turns and downforce will tighten the suspension in the wheels, and offroading might just be backflips until you get over the obstacle. could try to make the wheels go faster with more downforce and pressure, but then you'll need serious differential set-ups fot curves.
nice idea..perhaps the design of the wheels can be improved to ensure its stability and rigidness..as per my observation ...first..the ball end of the shocks should be eliminated as it promotes variable axis movement..instead use cylindrical shims..these should hold the both end of the shocks more rigid to the rim flanges and center hub at the hex housing...2nd..maybe the wheels is better of with rubber tyres..with soft foam inserts to further enable stabilizing the rolling resistance and jolts from surfaces...only then once the wheels are near fully stable..u can start to play with the spring rates and shock oil viscocity...to get the exciting motion damping experience and uniqueness from the wheels in countering the unsprung weight it bares on the wheel hex and hub....hope my 2 cents sparks new idea for u...have a great days ahead..and keep up the great videos.
I like your all videos .❤❤❤❤
It's my pleasure 🙏😃
Dost, yah ek shandaar pahiye ki design hai
Not really. It’s been tested before many times and it makes zero sense. There’s tons of issues just looking at the design: much more rotational weight, much more unsprung weight, inconsistent suspension absorbing at certain wheel angles, weak lateral rigidity, lateral force shock shaft stiction, shock shafts being drug through dirt, buying extra shocks. There’s so many great reasons why this isn’t a useful design idea
Very high quality video production. Also very good idea implementation. Well done.
Thank you very much!😊
This is a fantastic job ❤❤👍🏿👍🏿👍🏿
Ur thumbnail pic is lit🔥🔥🔥
Awesome! Impeccable precision, Art at its finest. Love it. 👍
Thanks😀
I've seen a similar concept used to a really good effect. In a 1 pound/454 gram combat robot/battle bot called cheesecake, the rims of the wheels are 3d printed (more than likely TPU, but I'm not sure) and have 3 spokes that are springy. they work incredibly well at preventing too much shock from traveling through the wheel and damaging the axles axels or the motor. Combat robotics, especially at the one pound (454 grams) deal with incredible forces, being hit with rotating weapons that store insane amounts of energy, have incredibly powerful weapon and drive motors (even weaker drive motors can spin their tires against the ground),and LiPo batteries can only be used a hand full of times before they are too burnt out. In this harsh field, where a full suspension assembly would be too complex, heavy, and prone to failure, the springy wheels are phenomenal.
Wow Nice design brother ❤👌👌
Thank you so much
Nice dedication and new experiment.. totally appreciated 🎉👍👍
Thank man 😃
The components of normal force of mg is always at an angle with the shockers so how would the spring get pressed only on three points on wheels it is usefulo
Bhai agar shoker tut gaye toh isse bhut bada hadsha hosakta hai or jaan bhi ja sakti hai isse acha toh normal shoker hi thik hai. Bhai hm toh apna shok hi sheh lenge. 💯💯💯
😂😁
Thoroughly enjoyed your video. Very well done and inspirational
Best cinematics sir ❤, Bhaiya 😅
Thank you so much, Jai Shree Ram🙏!
That was a very cool video, man! I had a feeling right away that the wheels wouldn't work. Maybe with more shock absorbers and fastened in a much sturdier way.
The wheels should be going the other direction so the suspension works better
Terrible idea, awesome execution!
Very nice and elegant work! 😉👍
But wouldn't you want to separate the electric motors? Make two axles, two belts, one motor would drive the right wheel and the other motor would drive the left wheel. Then the whole car could make sharper turns much more easily.
This would be an easier solution for off-road than installing a differential, because the differential will spin without locking. And you could programmatically adjust the power to each wheel, e.g. put more power to the left wheel when turning right.
This is a very cool concept. I wonder if they will ever use something like this in the future. I like it a lot!
I think with the shock absorbers angled around the circle the way they are, you would probably want ones that are neutral in the center of their travel so that they can resist motion on extension and compression based on braking versus acceleration forces. Don't quote me on that but it feels like you don't want their natural position to be at full extension.
잘만든다 잘 만들어, 군더더기 없이 깔끔하게~
This is very interesting, l love watching this kinda stuff.
❤❤❤ kamu punya video.
Lanjutkan. !!
3d printed material turns out to be rigid and very well finished. Which 3d printing machine u are using?
Well done. Can u explain the function in using eeprom in the transmitter? For storing mac address in 2 bytes of eeprom. Why receiver not use eeprom?
What is the compression length of the shock absorbers u used?
Super bro ❤
I love tyres very much in this Car.
softer spring rate would help alot ..... and some way to keep the rim centred above the hub ....... super cool idea anyway ..... thank you for sharing 😊
Check out Softwheel and GeoOrbital wheels. Torsional rigity wasn't there. As someone else had pointed out as well, without using the same words. Softwheel looks like the wheel side is directly attached to the rim of the wheel. That might be key.
I would love to see it made, thank you
Those ae shocks/dampers that are only supposed to see loads in one axis. You need struts that can handle the side loads better.
I wonder how gyroscopic procession will affect this. You might find that the forces are being applied at 90 degrees to the ground, and the wheels will just slide forward relative to the axle.
If you're using a 3D printer, it would have been better to design compliant wheel hubs with multiple spokes that would absorb impacts. The biggest issue I see is axle pulling the shocks apart under heavy torque.
good job bro
Thanks😊
What is the work of a shock absorber? It absorbs road shocks. You used this shock absorber in a place where it doesn't absorb the shock. In the car, a lot of it is absorbed by the rubber, but the shock absorber can never absorb all of it. It's like if you build a car and put thousands of springs on iron wheels, you won't be able to stop the vibration
bro u are a great engineer btw i have liked and subbsd
Man you really did it from scratch huh !! Impressive !!!!!!
Love from Bangladesh brother ❤
Thanks for your support❤️
Nice project
Thanks😊
nice idea, even better, you can but an electric hub motor in the middle, also. you could also try spiral leaf spring wheels.
you didnt even show how the suspension works in slowmo or at least stationary, and that was what I was most waiting for
Hi do you need a website
How to make long range recever and transmitter
very nice concept but needs some stronger rc car tyres not the printed ones
the best chanel of the world
Oh my Goodness, Thank you very much, brother😀🙏
@@proknow Yes I can not say lies I love engineering
I think the concept will doesn’t work because of the centrifuge forces implied on the rotational axis of the wheels, also it have several vector forces aiming in all directions on the same axis, so the shocks absorbers just tend to stiff and doesn’t absorb the impacts… and on top of that, if the rotation of the wheels are faster, the system becomes less effective because the centrifuge forces are more strong…
Can you attach a solar panel
Its so funny, I kept expecting you to say you were from the IRS and I needed to get google gift cards to pay off back taxes.
Miss you bro.❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤
The way Shocks placed under the wheels ,killed the DOF of suspension (degree of freedom).civil,mech,robotics Engineers can easily get my point.
si le pusieras alas plegables con servos y un motor pequeño con Helice eso podria volar como un hibrido de auto y avion
Está hecho con metal, no va a volar. Sería demasiado pesado
amazing bro
Thank you so much 😀
nope, skip it
Means?
Fact sponsorblock
You're right.
Stayed for the music though.
You're a hero bro... still watching cos I'm bored
Thanks!
Superb !!!
Good ❤ work
Thanks ✌️
Super bro ❤❤
Please tell me how to make a 220 volt AC generator with ceiling fan, and which magnet to use.
this will be similar to a soil compactor i guess
Very Good
Thanks😊
Please upload the 3 d printing parts and diagram
maybe the design could be modified to be more resistant to torsion. (adding an extra 3 coilovers, while keeping the number of hub mounting points at 3.)
by the way, I have considered the concept of replacing the coilovers with tensioned bungee cord.
This music goes hard
Appreciate 😊
Ini sangat keren kawan
Thanks😊
Very innovative project what is the cost of this project brother?
Hello Sir,
What degree have you and from where you completed.
You have a non boaring work.
The suspensions are at their max so they wont provide any travel on the bumps because is one trys to move down other two will stop it.
Although you have kept them at an angle but at such scale that wont provide any major benefit.
The suspension is not providing both up and down motion, its providing only down motion for the vertical and no up motion for the other two. So check the suspension travel.
Cant say anything about the stability though.
Amazing idea bro.. . ❤
हिंदी में बनाया कर ज्यादा व्यूज आएंगे❤😂🎉😢😢😮
The torque of the engine is going to screw with the functionality of the shocks
nice work
Thanks🙏
Nice 👍💯
Great stuff sir , please share a link of code and diagram.
It will available tomorrow!
Thank you for your patience.
I like to see what’s promised in these videos. I didn’t see any demonstration of the practicality of the suspension in the wheels.
What were you attempting to show with the shock wheels?
plz bro make video on how to make brushed drone using node mcu esp8266 module 🧐
Ok, Noted.
@@proknow Plzz
Very nice! Except you never really shown or talked much (at all?) about how it worked. Might need to compare to a version with regular wheels. I was left hanging as to whether this ended up being a good idea or not.
struts don't like side loads..
You didn't install differential drive that why facing turning problem
I am planning to use the differential in my upcoming car videos.
Зачем я все видео смотрел если в конце мне показывают как подвеска движет по асвальту, по ровному асвальту
I love the part where you test it out :/
Glad, you loved it.
Thank you
Bro you just need to make the will flexible and that might work
How to rotate bldc motor clockwise and anti clockwise
Just exchange any two wires from the 3-phase connection between the BLDC motor and ESC.
super cool project
When you make rc boat
Нельзя смещать ценр масс колеса! Это работать будет только на очень низких скоростях вращения колеса. А так же колесо не будет иметь устоичевость к поперечным нагрузкам.
try using TPU filament for 3d printing your wheels. This is an advice from this 12 year old
I printed the tyre with TPU, and that transparent filament is TPU, Sorry I forgot to mention it in the video.
@@proknow if the wheel is made of TPU then there is no need of spring it is not required.
but you can try making it into 3 parts so that there will be some action from springs