Calculating Gear Ratios and Torque Transmission in a 3-Gear Train System

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In a three-gear train system with gears A, B, and C, gear B serves as the input, while A and C are outputs. The kinematic relationship for the gears is defined by the equation rb θb = ra θa = rc θc, where rb, ra, and rc are the pitch radii and θ represents the angles turned. The gear ratios can be expressed as θa/θb = rb/ra and θc/θb = rb/rc, indicating that the ratios depend on the respective pitch radii. Regarding torque, the discussion emphasizes the need to analyze the static equilibrium of the system to derive the torque relationships accurately. The conversation concludes with a request for clarification on how to mathematically establish the torque ratios based on the gear relationships.
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I have a gear train system where i have 3 gears meshing with each other (different sizes) gear A, B and C. Gear B is my input/driver and gears A and C are my output/driven. If i know the input RPM and input torque for gear B, what are the gear ratios/the amount of torque transmitted to gear A and C. I doubt that i can say that ratio between A and B = ratio between B and C.

Also, would it be correct to say TA + TC = TB since gears A and C are in a sense parallel to each other. Use N for rpm and T for torque please. I would highly appreciate it if you just refrained from posting comments such "Google is a savior" and the sort.
 
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If I have understood you correctly, you actually have two simple trains,
B→A, and
B→C
that share the common input gear B.

The basic kinematic relation for rolling at the pitch point is
rb θb = ra θ a= rc θc
where the r's are pitch radii and the θ's are the angles turned by the respective gears.

The respective train ratios are then
θ ab = rb/ra = nb/na
θ cb = rb/rc = nb/nc

The last equality follows because the tooth numbers are proportional to the pitch radii.

With this much given to you, let me suggest that you think a bit about the static equilibrium problem for this system in order to get the torque relations.
 
Thank you for your reply. I have a follow up question.
I figured your first relationship rbθb = raθa= rcθc is based on the fact that the amount of displacement (arc length) should be the same for all gears, and when dividing θ by time t, i can get the ratios in terms of ω and radius, r (or D). However, I am kind of confused about the torque ratios. Based on your statement that the system is simply two gear trains, then would it be correct to say that DB/DA = TB/TA and the same relationship for gears B and C?
 
I'm going to throw that one right back to you and say, "why would that be true?" Show me how you got it. Start out by writing the sum of the torques on each gear, and work through the math.
 

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