great video, wonderful explanation. i need to design a retrofitted front end loader for a garden tractor in my mechanical drives course and this was very helpful, thanks!
great stuff. Couldn't tell where I was going wrong, but I was drawing my hydraulic press sliding joins in the middle of the long link so I had negative mobility from too many revolute joints. Thanks!
Shouldn't the 12th Link not be included since it merely goes to a point of interest and in Grubers equation, links are connected by a minimum of two joints?
Link 12, the bucket component, is connected to two links. Joint M connects to link 7 and join N connects to link 11. Point of interest is then on the other side of the bucket where the tips of the teeth would be located.
this kinematics course series i watched at least 5 times,watched again and again,i really like mechanical engineering,thank you very much.
great video, wonderful explanation. i need to design a retrofitted front end loader for a garden tractor in my mechanical drives course and this was very helpful, thanks!
great stuff. Couldn't tell where I was going wrong, but I was drawing my hydraulic press sliding joins in the middle of the long link so I had negative mobility from too many revolute joints. Thanks!
Where you draw them technically shouldn't matter if you consider the link to still be one length seperate from the slider.
If you consider the sliding pair for hydrolics than consider cylinder and piston as two seperatw links. The answer will be same.
great explanation. Thank you for making this video
th-cam.com/video/fRyUf-GY754/w-d-xo.html.
thanks for the clear explanation. very helpful
Extremely helpful video, easy to follow along with whats happening.
No reason for skipping the letter D when labeling the joints. It looks like I just missed it in the sequence. Thanks.
These vids are really underrated
Shouldn't the 12th Link not be included since it merely goes to a point of interest and in Grubers equation, links are connected by a minimum of two joints?
Link 12, the bucket component, is connected to two links. Joint M connects to link 7 and join N connects to link 11. Point of interest is then on the other side of the bucket where the tips of the teeth would be located.
Thanks a lot for the video.
your videos are amazing .can u make more videos about kinematics like mechanism design,calculate,thanks
th-cam.com/video/fRyUf-GY754/w-d-xo.html.
Very well explained thanks for this
Thank you so much for this explanation!
th-cam.com/video/fRyUf-GY754/w-d-xo.html.
Which software your using
I'm using Microsoft OneNote for the "notepad" type of feel when presenting.
Hi , i have problems to draw kinematic digram , can I contact with you
Thanks.this help me
That cool
Thanks ma Bro
Thank u 👍👍
thanks
thanks for the "D" i got my mobility calculation wrong until i realized that