Thehardwareguy, in my opinion you are the best youtuber out there. I really love all your videos from csv file writing to RC car making. I was wondering if you can help me with a project that im doing for science fair. Would be amazing, Thanks !
Thanks for the clear video. I wonder how you could go a little further to make your joints match the real world. The hexagonal feature of the coupler will fit into the hexagonal feature of the wheel. So, not only is it a rigid joint as you have shown, but it's twist is dictated. Perhaps it would only show if you did some sort of cross-section view. Same for the setscrew that engages the flat on the motor shaft. I'm wondering how it could be set to the right twist so the flat was always aligned with the set screw. Another thing that I've run into quite often is that the hole pattern on the bracket won't necessarily be lined up with the hole pattern on the chassis. You got lucky - never a bad thing. It could be rotated so that it is quite out of whack. Mine always are - grr. So, I have to go and make a second joint using a second hole on the bracket and it's corresponding hole on the chassis. Now you have really removed all extra degrees of freedom. Thanks, Dave
Great video, this video makes me want to take your course on Fusion 360 but I'm curious if your free videos teach the same? I learn something new every time I watch one.
Hi Rick, thanks for the kind comment. My course is primarily aimed at complete beginners who want to become more familiar with the CAD / 3D design process in general, with high emphasis on Parametric Modelling. The design projects/topics in my course will never be publicly uploaded to my TH-cam channel, aside from the final two lessons, "Curves and Bends" and "Threads Joints and Motion Links" which I added to the course at a later date. Hope this helps!
Thehardwareguy, in my opinion you are the best youtuber out there. I really love all your videos from csv file writing to RC car making. I was wondering if you can help me with a project that im doing for science fair. Would be amazing, Thanks !
Thank you. What’s your project about?
Thanks for the clear video. I wonder how you could go a little further to make your joints match the real world.
The hexagonal feature of the coupler will fit into the hexagonal feature of the wheel. So, not only is it a rigid joint as you have shown, but it's twist is dictated. Perhaps it would only show if you did some sort of cross-section view. Same for the setscrew that engages the flat on the motor shaft. I'm wondering how it could be set to the right twist so the flat was always aligned with the set screw.
Another thing that I've run into quite often is that the hole pattern on the bracket won't necessarily be lined up with the hole pattern on the chassis. You got lucky - never a bad thing. It could be rotated so that it is quite out of whack. Mine always are - grr. So, I have to go and make a second joint using a second hole on the bracket and it's corresponding hole on the chassis. Now you have really removed all extra degrees of freedom.
Thanks,
Dave
Thank you man for this great video
Great video, this video makes me want to take your course on Fusion 360 but I'm curious if your free videos teach the same? I learn something new every time I watch one.
Hi Rick, thanks for the kind comment. My course is primarily aimed at complete beginners who want to become more familiar with the CAD / 3D design process in general, with high emphasis on Parametric Modelling. The design projects/topics in my course will never be publicly uploaded to my TH-cam channel, aside from the final two lessons, "Curves and Bends" and "Threads Joints and Motion Links" which I added to the course at a later date. Hope this helps!