The animated model is based on the inside workings of a Tamiya remote control car. Front wheel drive, steering and suspension. 3d model and animation created in 3ds Max.
Jesus Christ loves you and he did die on the cross for our sins and come back to life after 3 days ! He loves you, love him! He loved us first ! He is awesome ! Repent and trust in him !
Jesus Christ loves you and he did die on the cross for our sins and come back to life after 3 days ! He loves you, love him! He loved us first ! He is awesome ! Repent and trust in him !
Jesus christ... you just saved me from a world of stress, wrath, and anxiety. You know how long I've been wondering how the wheel turns and steers at the same time? Thanks man
I have always wondered about how the mechanism works, to allow the wheel to steer and spin, even as the wheel is changing elevation with the suspension. This is amazing. Thank you.
I think the u-Joint Connection differs when the wheels are down or up...so this means that the connection of the u joint to center of the wheel is movable...to inner and outer..
So thats how the power gets to the wheels! Seems like a very thin shaft to be delivering 100 to 200 HP downwards, how much stress can they take like if you put a massive engine and clutch that baby.
Well, it's the work of the engineers. This (white) shafts are predominantly stressed only by torsion. For example, if the car has a torque of 300Nm and an output of 160KW, a sufficient diameter for the output shaft is only 35mm. with old material, today's materials can be of a higher quality , and the diameter can be even smaller. Behind these irons have a lot of math to be used rationally.
A 35mm shaft can take a lot more stress than a patch of tire meeting the road can give it. Anyway this animation is wrong, you can't use a U joint on a front-wheel drive car.
Loved it. Can I make a request? I would love it that when the wheels and shocks are turning or moving that you show a bar graph that displays the increased stress of the drivetrain turning against the universal joint, The more the wheels are turned left or right? Or if a large dip in the road causes the suspension to raise or lower greatly, can we see the relative loss of power or some similar real time graph?
fantastic video thank you soo much. Though I still have to ask, aren’t there CV joints instead of universal joints from the differential and on the wheels for the axle?
It took me 20min to find this simple explaination of HOW SUSPENTION AND STEERING ARE WORKING AT THE SAME TIME, the search results were flooded by "buy my car/brand videos", I just want to learn stuff I dont care bussiness I just want to have a free learning platform
I am not an engineer and therefore unable to answer your question. The 3d model and video were made as a student exercise to create an animation of the workings of a Tamiya remote control car. I no longer have the remote control car but it was similar to the car in this image: www.tamiya.com/english/rc/chassis/m-05/d3.jpg
The 3d animated model was built by using an old remote control car as reference. The rotating grey wheel on the main red chassis is the drive wheel and the yellow arm is part of the steering control. I am not an engineer or mechanic so I am unsure if a real car would be of a similar configuration.
Can someone give me the names of each part and what color its animated here? I'm trying to get a handle on naming the wheel bearings, cv joint, ball joint, etc.
If you do a search for tamiya front wheel drive steering or suspension or tamiya m-05 chassis you should find some suitable images. eg. www.tamiya.com/english/rc/chassis/m-05/d3.jpg
The 3d model and video was created several years ago as a student animation project to get all the parts moving correctly. A Tamiya remote control car was used as reference. I am not sure about the engineering aspects of the model as I am not an engineer or mechanic so I am unsure about the name of the suspension system or if a real car would be of a similar configuration.
The 3d model and video was created several years ago as a student animation project to get all the parts moving correctly. A Tamiya remote control car was used as reference. I am not sure about the engineering aspects of the model as I am not an engineer or mechanic so I am unsure if a real car would be of a similar configuration.
Jesus Christ loves you and he did die on the cross for our sins and come back to life after 3 days ! He loves you, love him! He loved us first ! He is awesome ! Repent and trust in him !