MOCpages : Share your LEGO® creations
LEGO models my own creation MOCpages toys shop
Welcome to the world's greatest LEGO fan community!
Explore cool creations, share your own, and have lots of fun together.  ~  It's all free!
Comment on NXTDuneBuggy
 
Rate it
55555 Excellent  
I like it
4444 Very good
I like it
333 Good
22 Average
1 Not good
  (I'll rate it later)
First name Have a MOCapges account? Sign in
Last name
E-mail
You'll need to check your e-mail before we post your comment.
Your e-mail won't be shown onscreen, and we will never sell or abuse it.
Comments
(No HTML, please)
  Use appropriate language and do not be mean, rude, or insulting.
Inappropriate comments will be deleted before anyone sees them,
and your account may be deleted. Full rules | Why?


NXTDuneBuggy . A fully remote controlled Dune Buggy from a single LEGO Mindstorms NXT retail set. . This is my first attempt at a Dune Buggy or sandrail. From the outset the goal was to come up with a reasonably fast vehicle with excellent stability and very sharp turns. I started with the front wheels and steering motor and worked my way backwards in the model, adding the left and right motors and the NXT brick. Only later i added the roll-cage, bars, spots and front bumper that give it the typical buggy looks. Note that the model uses all three motors. The model has ""diffdrive"" because both left and right back wheels are driven independently, each has its own motor. The third motor steers both front wheels. As you can imagine this results in a so-called overdetermined system. To improve driving turns, i derived formulae to control each of the motors. This results in none of the wheels slipping. One assumption underlying the formulae is that in a turn each of the wheels has its own radius and hence speed. The fact that the track width differs from front to back complicates the formulae a bit. Another assumption is that in a turn the outer front wheel determines the actual curve, neglecting the inner front wheel. This seems reasonable, because the model is sloped down towards the front, and the outer wheel moves forward a bit upon steering. It thus carries most if not all weight in sharp turns. The formulae use the wheel base B, the track width in front Tf and rear Tr, the steering angle alfa, and give the relative speed of the rear outer and inner wheel, dubbed So and Si. I am still figuring out how to best share my findings and formulae. Note that the model does not have Ackermann steering, so both front wheels always stay parallel. The model is pretty stable as you can see in the pictures here. It can drive an over 30 degree sloped plane without tipping over, regardless what direction it is heading. This is due to the very low center of the masses, notably the brick and the motors. Luckily you do not need to tear down and rebuild the Dune Buggy after driving it and running out of battery power. The brick can be turned to the back and upwards for changing batteries. Just remove the two diagonal rear bars and turn the brick up, decoupling it from the rear axes. The lid can then be removed from the brick, and batteries be replaced. As is apparent from the top view here, the front wheels are closer together than the back wheels, which, i think, adds to the sturdy looks. The bottom view shows that the wheels are geared 3:1 to the motor, giving it a higher speed than mounting the wheels directly on the motors. At the same time however, there is enough power left to make it do a wheelie when switching from driving backwards to forwards. I have finally made photos when i took it apart, as well as a video of the model in action, see the links on my home page. I have given up on finding a way to share my programs to control it. Happy driving, NXTLiftBoy


LEGO models my own creation MOCpages toys shop


You Your home page | LEGO creations | Favorite builders
Activity Activity | Comments | Creations
Explore Explore | Recent | Groups
MOCpages is an unofficial, fan-created website. LEGO® and the brick configuration are property of The LEGO Group, which does not sponsor, own, or endorse this site.
©2002-2014 Sean Kenney Design Inc | Privacy policy | Terms of use