My 74+2s is still a thousand bits. How do you tell what the diff ratio is without stripping it ?
Graham,
Fix one of the output shafts to prevent it turning, then rotate the opposite output shaft one full turn and count the rotations of the input shaft/flange. If the input shaft/flange rotates about 3.5 turns then the ratio is 3.54 or 3.55, if it rotates about 3.75 turnes the it is a 3.77 ratio.
To know if it is 3.54 or 3.55 ratio you will need to take the diff apart and count the number of teeth on the CW&P.
If you hold one of the output shafts steady, won’t the input shaft turn twice as many times as the ratio?
Paddy
… or half?
Or rotate one output shaft 20 turns (with the other fixed) then the input shaft rotation will be 10 times the ratio and you should be able to distinguish between 3.54 and 3.55.
[quote="oldelanman"Or rotate one output shaft 20 turns (with the other fixed) then the input shaft rotation will be 10 times the ratio and you should be able to distinguish between 3.54 and 3.55.[/quote]
Specifically, if you mark the pinion’s starting position, then it will line up exactly with that mark after either 18 or 22 turns of one of the output shafts.
After 22 turns means the pinion has 11 teeth so ratio is 3.54 (39/11) or 3.9 (43/11)
After 18 turns means the pinion has 9 teeth so ratio is 3.55 (32/9) or 3.77 (34/9)
Paddy
Don’t forget to count the number of turns of the input (pinion) shaft as well or you still won’t know which ratio it is !
Cheers
Thanks guys for the help -was still a little confusing but found we have 3.77 diff. Also found info from this link
http://www.mgparts.co.nz/diff_ratios.html