Thanks for the video! In the case of profile shifted helical gears, is the center distance equation the same except instead of using the normal pressure angle, we use the transverse pressure angle instead?
Sorry for the late reply, I have been on holiday.The formulas are basically the same, but not exactly. You can find more information at the following link: sdp-si.com/resources/elements-of-metric-gear-technology/page4.php
15:04: "The sum of the profile shift coefficients should not be significantly greater than one. This means that the sum of the profile shift coefficients should not exceed the value of the module."
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the most meaningful and complete lecture on the involute gears, period. thank you for your work!
Thank you very much 🙏🏽
Thank you very much! really helped understand the concept!
Thank you very much
Thanks for the video! In the case of profile shifted helical gears, is the center distance equation the same except instead of using the normal pressure angle, we use the transverse pressure angle instead?
Sorry for the late reply, I have been on holiday.The formulas are basically the same, but not exactly. You can find more information at the following link: sdp-si.com/resources/elements-of-metric-gear-technology/page4.php
Any good books to design gearbox and gears so i can study and design for daily basis
How to distribute profile shift coefficient for pinion and gear i.e x1 and x2
15:04: "The sum of the profile shift coefficients should not be significantly greater than one. This means that the sum of the profile shift coefficients should not exceed the value of the module."
Seriously, greatest video.. which software do you use to make such video plz reply
Thank you very much. I use Blender.
@@tec-science 👍 great sir