204 MECHANICAL ENGINEERING PRINCIPLESThis shows that the movement ratio is independent
of the idler, only the direction of the follower being
altered.
Acompound gear trainis shown in Figure 18.6,
in which gear wheelsBandCare fixed to the same
shaft and henceNB=NC.
From equation (18.7),
NA
NB=TB
TAi.e.NB=NA×TA
TBABCDFigure 18.6
Also,
ND
NC=TC
TDi.e.ND=NC×TC
TDButNB=NC,and
ND=NB×TC
TDtherefore
ND=NA×TA
TB×TC
TD( 18. 8 )For compound gear trains having, say, P gear
wheels,
NP=NA×TA
TB×TC
TD×TE
TF......×TO
TPfrom which,
movement ratio =
NA
NP=TB
TA×TD
TC......×TP
TOProblem 7. A driver gear on a shaft of a
motor has 35 teeth and meshes with a
follower having 98 teeth. If the speed of themotor is 1400 revolutions per minute, find
the speed of rotation of the follower.From equation (18.7),
speed of driver
speed of follower=teeth on follower
teeth on driveri.e.1400
speed of follower=98
35Hence, speed of follower=1400 × 35
98
=500 rev/minProblem 8. A compound gear train similar
to that shown in Figure 18.6 consists of a
driver gearA, having 40 teeth, engaging
with gearB, having 160 teeth. Attached to
the same shaft asB, gearChas 48 teeth and
meshes with gearDon the output shaft,
having 96 teeth. Determine (a) the movement
ratio of this gear system and (b) the
efficiency when the force ratio is 6.(a) From equation (18.8), the speed ofD=speed ofA×TA
TB×TC
TD
From equation (18.7),movement ratio=speed ofA
speed ofD=TB
TA×TD
TC=160
40×96
48= 8(b) The efficiency of any simple machine is
force ratio
movement ratio×100%Thus,efficiency=6
8× 100 =75%Now try the following exerciseExercise 92 Further problems on gear
trains- The driver gear of a gear system has 28
teeth and meshes with a follower gear hav-
ing 168 teeth. Determine the movement
ratio and the speed of the follower when
the driver gear rotates at 60 revolutions per
second. [6, 10 rev/s]