Gear Forces of HELICAL and BEVEL GEARS in Just Over 10 Minutes!
Tangential, Radial, and Axial Components
Equation Derivations
Axial Load - Thrust
0:00 Power, Torque and Forces
1:17 Helical Gears Force Components
2:36 Thrust (axial loads)
3:39 3D Render of Force Components
4:28 Bevel Gears Force Components
7:14 Helical Gear Example
Shaft Design and Iterative Process • Shaft Design for INFIN...
Previous Video: Gear Forces and Power Transmission of Spur Gears in Just Over 12 Minutes
• Gear Forces and Power ...
Part 2 for this video:
Worm Gear Forces and Speed Relations in Just Under 15 Minutes
• WORM GEARS - Forces an...
Example 1: • Gear Force Components ...
Example 2: • Gear Force Components ...
Example 3: • Gear Force Components ...
SOLIDWORKS
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Other "Mechanical Engineering Design 1" Links:
1. Axial Loading Review • Axial Loading Review f...
2. Torsion Review • Torsion Review for Mec...
3. Pure Bending and Deflection Review • Bending Review for Mec...
4. Pure Bending and Deflection Combined Example • Deflection of Beams Re...
5. Shear and First Moment About Neutral Axis Review • Transverse Shear Revie...
6. Mohr's Circle Review • COMPLETE Mohr's Circle...
7. Brittle Failure Theories - Fracture Criteria • Brittle Failure Theori...
8. Ductile Failure Theories - Yield Criteria • Ductile Failure Theori...
9. Design Factor and Uncertainty vs. Factor of Safety • DESIGN FACTOR and Unce...
10. Tolerance Stack Ups and Tolerance Loops • Uncertainty for Design...
11. Castigliano's Theorem • Castigliano's Theorem ...
12. Fracture Toughness • FRACTURE TOUGHNESS and...
13. Crack Propagation • CRACK PROPAGATION and ...
14. Fatigue SN Diagrams • Fatigue (Strength-Numb...
15. Marin Factors and Corrected Endurance Limit • Marin Factors for ENDU...
16. Fatigue Stress Concentration and Notch Sensitivity Factors • Fatigue STRESS CONCENT...
17. Fatigue Failure Criteria • Fatigue FAILURE CRITER...
18. Shaft Design and Iterative Process • Shaft Design for INFIN...
19. Power Screws - Torque to Force Relationship • Power Screws - Torque ...
20. Screw Thread Stress • Stresses at Screw Thre...
21. Fastener and Member Stiffness • Bolt (Fasteners) and M...
22. Bolt Tension • BOLT TENSION and Tensi...
23. Proof Strength and Factors of Safety • PROOF STRENGTH - Facto...
24. Spring Stress and Spring Constant • Mechanical Springs - S...
25. Shearing Yield Strength and Presetting • Springs - PRESETTING a...
26. Springs Fatigue - Zimmerli Data • Springs Fatigue and ZI...
27. Spring Design Restrictions • Mechanical SPRING DESI...
28. Extension Springs • EXTENSION SPRING Desig...
29. Gear Relations and Nomenclature • GEARS BASICS - Nomencl...
30. Gear Trains and Planetary Gears - Mechanical Advantage • Gear Trains and PLANET...
31. Spur Gear Forces and Force Components • Gear Forces and Power ...
32. Helical and Bevel Gear Forces • Gear Forces of HELICAL...
33. Worm Gear Forces • WORM GEARS - Forces an...
34. Bending Stress at the Teeth - Lewis Form Factor • LEWIS BENDING STRESS a...
35. Pitting - Surface Compressive Stress • Gear PITTING - Surface...
36. Bearing Radial Loads • BEARINGS BASICS and Be...
37. Bearing Reliability • Bearings RELIABILITY a...
38. Bearing Axial Loads and Equivalent Combined Loads • Bearings - COMBINED Ra...
Пікірлер: 42
I actually understand what's going on physically/conceptually so much more by watching this videos, thank you a million times over!
sooo helpful. Senior ME student and you're helping me understand my Machine Design 2 class SO MUCH BETTER.
@LessBoringLectures
3 жыл бұрын
Fantastic!
@danese1636
Жыл бұрын
Same
This video helped so much on my Mechanical Design 2 term project. Appreciate the clear explanation!
This is fantastic! Very thorough.
@LessBoringLectures
3 жыл бұрын
Much appreciated!
These are gems! Loving it😍😍
the diagrams are extremely helpful - thank you so much
Thank you so much... You have cleared the confusion I had.
Great Video on Helical Gear!
Bro I love your quick videos! So clear and quick! Thanks a lot🫶🏽💪🏽
Amazing OUTSTANDING lecture ❤️❤️❤️💯💯💯💯
this was really good - thanks
great video! nice work.
Top information. Thank you.
Can't stop watching! They're great revisions and I always find something new or extra.
@LessBoringLectures
3 жыл бұрын
Thanks! Please share!
@prathameshsundaram7509
3 жыл бұрын
@@LessBoringLectures - Always do!
@CrazyHostelers
2 жыл бұрын
same here!
Excelent video. Do you have a lecture about forces on helix bebel gears? A mixture of both explanations youve made on this video
Excelente video
Hi...Very nice video...can you share some info on torque transmitted to another shaft in case of helical gears
thank you :D
super goood! How about a video talink about the virtual pitch radius or equivalent number of teeth N/cos^3(phi) and the osculatoring circle
MashaAllah Bro Nice
thank you for realll!
@LessBoringLectures
3 жыл бұрын
No problem!!
Do you have any resources to understand crown/face gears?
Is it possible to upload the pdf so we can print it and study from it
D1 and D2, are they the outer diameter of the gears?
for the ex : why not use 1 thrust bearing that's what they do in Shigley textbook?
Sir, I have a doubt. How can axial thrust be distributed among the bearings equally?
@LessBoringLectures
3 жыл бұрын
They are usually not. This is more of a hypothetical assumption to understand/explain a concept. It CAN be done, but usually only one of the bearings takes the entire axial load.
@indrakumartak9865
3 жыл бұрын
@@LessBoringLectures so sir, how can I measure axial thrust on the bearings if I make this helical gear model and keeping in mind that, axial thrust is not equally distributed among bearings?
@LessBoringLectures
3 жыл бұрын
Then all the axial thrust value is equal to the axial force on the bearing the IS in fact counteracting the thrust. No calculations are needed in that case.
How to find the direction of axial force
bro where is the solidworks model file link ?
Where is the solidworks file?
couldn't find video about interference (smallest number of teeth which will not have interference formula etc.)
The figure shows a double-reduction helical gearset. Pinion 2 is the driver, and it receives a torque of 2120 lbf. in from its shaft in the direction shown. Pinion 2 has a normal diametral pitch of 8 teeth/in, 14 teeth, and a normal pressure angle of 20 and is cut right-handed with a helix angle of 30°. The mating gear 3 on shaft b has 36 teeth. Gear 4, which is the driver for the second pair of gears in the train, has a normal diametral pitch of 5 teeth/in, 15 teeth, and a normal pressure angle of 20° and is cut left-handed with a helix angle of 15°. Mating gear 5 has 54 teeth. Find the magnitude and direction of the force exerted by all of the bearings on shaft a, b and the c, if bearings B, C and E can take only a radial load while bearings A, D and F are mounted to take both radial and thrust loads. The life goal is 25 kh, with a reliability factor for the ensemble of all four bearings to equal or exceed 96%. The Weibull parameters are x0= 0.02, (θ- x0)=4.439, and b= 1.483. The efficiency of the system is 90%. (a) Select the roller bearing for location B and C and ball bearing for E. (b) Select the ball bearing (angular contact) for location A and D assuming the inner ring rotates and for F assuming the outer ring rotates. ***Can you help me to solve this problem?***
Its good but too fast to understand