Engineering and Technology Learning Channel
A platform for students, professors, job seekers, employers
Working Animations
Subjects visual learning
Software Tutorials
Project Ideas
Puzzles
Job related videos
Lab experiments visual learning
Automobile Updates
Manufacturing process
Visit Our Facebook Page:- facebook.com/people/Lemurian-D-Signs/100063942879343/
Visit our website: zx5jn3krzzgu1ztaj0o2fw.on.drv.tw/lemuriandesigns.com/Lemurian%20D-Signs.htm
For any enquiries contact at : [email protected]
Пікірлер
Thank you 🙏🏻
Nice ❤
It is good and please make it 3D projection
This is not a face cam mechanism. It is double lobed cam in this simulation.
Ye file mil sakti hai mujhe please sir
Lemurian ? Nice name
Attractive idea! bro carry on
Thank you bro
Sir mujhe koi accha project bhata do
Where can I get the report?
Report not having bro..
I miss ma stick ☘️
easy to understand 😇
It is flat face followers,in which Flat face is in the form of circular disc
Knows aas bevel gear
What software was used?
Solidworks
Oh, I thought it was about some climate cult follower, who fell on his face...
Hi, I couldn't understand, please tell me if there any mistake on the video, I will re-upload
@@lemuriand-signs6410 No, no, all is very good. Thank you for the explanation of the concept.
Very interesting and smooth
You have saved my ass for my design project, thank you!
Noice
Sorry, will check the voice and update it in the video, thanks for your feedback, Please support our channel by subscribing and providing more feedback, that will be useful to improve our channel..
Thanks a lot for the video 😊 just a question.. where could these applications be found? Like in which machines or engines?
Engine Piston and jackhammer drill are the ones i can think of
Slider crank mechanism - Internal combustion engine Quick return mechanism - Shaping machine Rack and pinion - steering system Will upload a video with more application of all mechanism
Yes sir, Piston Engine and Jack hammer are using Slider crank mechanism.
I like it
Vaaaaaa❤❤❤❤❤❤❤❤
It's so smooth ❤❤❤❤
pls send me the file of this........i want to make this also im a mechanical engneering student
No intake manifold or carb.
Nice
Nice
Thank u ❤
Helpful
this music rocks
Thicker shaft please - axel #torsion ?
This is a flat face follower
Friction is two High but
Agree.
what type of motor did you choose for the project? do you have calculations for that?
Still difficult for me to visualize why inline engines have an even number of cylinders, but radial engines need to have an Odd number??
You should give it some thought :) But... The radial engine depicted in this video is a four stroke engine. This means that each cylinder fires once every two revolutions of the engine. Another observation is that each cylinder achieves TDC sequentially in a circle around the engine as it rotates. After TDC either combustion or intake stroke begins. For the vibration and even power stroke distribution it is desirable that every other cylinder begins a combustion (ie. it fires) and every other cylinder (those between former) starts an intake stroke as it rotates. The only way to achieve for all cylinders to fire in this configuration is to have an odd number of cylinders. Thus in the nine cylinder example above the firing order is: 1- skip 2 because it started intake stroke - 3 - skip 4 -5 - skip 6 - 7 - skip 8 - 9 - skip 1 (astute reader will observer we started a second revolution of the engine at this point) - 2 - skip 3 because it started its intake stroke - 4 - skip 5 - 6 - skip 7 - 8 - skip 9 and now after two full revolutions we are back at the configuration we started with. This is only possible with an odd number of cylinders. In example if we would have an 8 cylinder radial and a firing sequence would skip every other cylinder(desirable) only cylinders 1-3-5-7 would ever fire, because we would skip number 8 and landed back on 1. Theoretically there is another possible configuration where in the first revolution every cylinder fires, thus the first revolution is composed of combustion and exhaust stroke, and none of the cylinders fires on the second revolution because this second revolution is composed of intake and compression strokes. Such a radial engine would run very uneven, but it could have an even number of cylinders. Also, bear in mind, that every four-stroke piston engine returns to the same state every 720 degrees of rotation. And as a side note: inline engines are not limited to even number of cylinders. There were plenty of five cylinder inline engines. I think even 7 cylinder inline engines existed at some point. 3 cylinders inline engines are all the rage nowadays. And as a food for thought, a 5 cylinder V engine exists. :)
@@Thomas..Anderson Instructional
does the worm gear and the wheel gear attached to it move in the same direction? And also, if we were to have a straight bevel gear with two gears horizontally on it would they both move in the same direction?
Best resource I've found on this subject, thanks!
what kind of software are you using to create this types of drawing
Solidworks 2016
This is very nice project, I would like to have details of it
Sorry, I don't have more details, you can get more information from Google
Thank you
💯
🤩
Thanks to Al-Jazari. The Muslim engineer that first founded this in the 12th century.
Thanks so much, finally one that makes sense You wouldn't believe this but I used this to make a spaceship in a video game lol
kzread.info/dash/bejne/fIiD2puSnMzUY7A.html
I think I love you.
so i knew it I KNEW IT
😸
the first mechanism seems to be really popular with women too ;-)
Great work thanks
I'd like to find out the course of a axis to make a small project using mechanical parts and this is hinting me something. Is there any software that one can experiment finding out gear course motion?