Видео

thank you!

@ 6:45 seems to be formula error? D? Theta? something doesn't seem right

good video

Thank you so mush

my mirrored involute curve does not pass through the reference point on the pitch circle, causing an issue making the gear tooth. Advice on how to fix this?

Se ve muy interesante, pero, desafortunadamente no está en español.

Nice really helpful

Best angle 20°

OMG thank you so much! This problem was annoying me so much and I was starting to get hopeless about solving it. This fixed issues with creating global variables as well.

how is K Nmm/degree? I dont understand hte units does not add up. you have In/mm then psi or N*/mm^2 then the answer should lb/in or N/mm

Excellent video - clear and concise.

Also looking for how you'd do backlash? My method would be to rollback to the base gear tooth and before the tooth radius is applied and do a move face (reverse direction) on the two opposing involute faces of the gear tooth. I would add this face offset value to my equations. My question would be would you apply backlash to only the gear tooth and not the rack tooth?

Thanks so much. I always wanted to to learn how to design a rack and pinion and this was an excellent tutorial that I followed along with to understand how to create an involute curve and use equations to control everything. This will be my go-to for creating future gears in SW and then 3D printing them. - Thank you!

Excellent videos. Really helped me out on a project. Many thanks!

I leared a lot from this video, but my question is, how is this manufactured? Sheet metal needs to be pressed with a custom tool? Is that it?

At 5:25- why is the base circle of the left gear near the tooth roots, and on the right gear, it appears to be the pitch circle? Also...to keep the line of action perpendicular to the teeth faces that are transmitting force at any given moment- it seems that the involute must be formed from the pitch circle- is that so? If so, is the flank of the tooth, below the pitch circle, actually a true involute shape? Thanks, a helpful video!

Hi. Very helpful. Thanks. 🙏🙏🙏

Thank you. Perfect.

this is great best easy to understand

Helloe Sir and thank you for the wonderful lesson! Could you please provide the guideline document from the manufacturer if possible?

Tnx

Should the cylindrical pressure vessel's height not be considered for the calculation?

How new target stress is 52.59%?

So good so detailed just amazing❤

Great video.

I don’t understand how to find K if we want to know Na. Please answer mu question.

Thanks a lot mate 🦸🏻‍♂

great video. but why does there appear to be so much backlash in the gear mesh? is there a more idealized way to space out the gear teeth to eliminate this or is that gap necessary in some way?

You are a legend! Thank you! Solid Works 2012 SP5 on windows 11.

0:30 According your first video ..Design 1 -> you have named as Pitch circle not base!

Can you provide autocad file please

Great content

wonderful explanation

Thanks brother it works🎉🎉🎉🥰

So is the pressure angle calculated or just chosen? The angle is needed before the diameter of the base circle is calculated, right? This is the part that is confusing to me.

U deserve a like and subscribe!!

Solidworks sucks. So much wasted time doing simple things.

Amazing! I was looking for it for so long. Very thank you!

Exceptional clarity! Thank you very much.

Thank you, Sir!

Thank you for this tutorial, it was well planed out and straightforward. I liked it particularly because it helped me join the concept of making an involute for a circle and then using it to design the gear teeth. I will definitely recommend this vid to my friends and comeback latter to watch it again.

I need to calculate the time taken by the torsional spring to restore back to original position ie released from 90 degree Can you please suggest any books for getting information regarding torsional springs.

This is very helpful because there is so much misinformation about drawing involute gears on the internet, but I do have a question. To get the circular pitch, you divide the base circle circumference by the number of teeth as you state. But you then add that it can be found by multiplying the module by PI, which gives a different answer. Or am I wrong?

Please video upload inner gear teeth with pin dia.

Hello sir good morning

How do I contact someone for help with torsion spring on a prototype?

can someone reach regarding torsion spring help. Im working with a protoype and will pay for assistance with this.

Sir g iski source file hi send kerd dein kindly!!!!!

Hello! Great video though I have a question concerning the formular you used for the CIRCULAR PITCH. In your other video ruclips.net/video/IBcGLpQnfYk/видео.html at 4:17 used defined the CIRCULAR PITCH formular as Module*Pi. But in this video at 18:14 you define the CIRCULAR PITCH as 360 / Number of Teeth, kindly explain. I am a bit confused, thank you.

Do you write a book, I have great interest to buy one!