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This seems like a @GaryHinshaw problem solving issue.
From what I can see, the formula depends on which part of the system is fixed. For a fixed ring, the ratio of sun rotation to carrier (that holds the planets) rotation is (teeth-of-sun + teeth-of-ring) / teeth-of-planet(12+41) / 16 = 3.94If the ring actually has 42 teeth, the ratio is exactly 4.If the carrier is fixed, then the planets are just idler gears, and the ratio is (ring/sun) - 41/12=3.42If the ring actually has 42 teeth, the ratio is 3.5If the sun is fixed, then the ratio is (ring/planet) : 41/16 = 2.565If the ring actually has 42 teeth, the ratio is 2.625
Ah, the answer was posted. Given r_r = r_s + 2*r_p, my formula reduces to:R = 1 + r_r/r_s <--> 1 + Z_r/Z_sso we agree when expressed that way. Phew.
OK, after a bit of thinking I took a photo of the gears-down loaded to the computer-enlarged them so I could see them to get an accurate tooth count. The pinion gear (sun gear) has 12 teeth. The planetary gears have 16 teeth (there are three used) the ring gear has 45. We are using the planetary gear carrier out put has the final drive.So 16 dived by 12 = 1.333 and dividing the ring gear (45 teeth) by the planetary gear (16 teeth) you get 2.8125.How do we work with these two numbers? If you add the two you end up with 4.1455.Divide the 2.8125 by the 1.333 you end up with 1.72Multiply you get 3.749Do not think 1.72 is correct, so that means we add or multiply ?
I do have a lot going on. However I can get some gearheads shipped out next week. I'll send PM