Belt Drive

• Construction of Cam profile
Previous lecture

Today’s lecture
• Belt
• Rope
• Chain

Power Transmission Devices
Belt drive,
Chain drive,
Gear drive

BELT DRIVES
The belts or ropes are usedto transmit
power from one shaft to another by
means of pulleys which rotate at the
same speed or at different speeds.
The amount of power transmitted
depends upon thefollowingfactors: 1.
The velocity of the belt.
2.
The tension under which the belt is
placed on the pulley.
3.
The arc of contact between the
belt and the smaller pulley
4.
The condition under which the belt
is used.
5.
The material of the belt used.
Selection of the Belt Drive:
1. Speed of the driving and driven shafts.
2. Speed reduction ratio
3. Power to be transmitted
4. Centre distance between the shafts.
5. Positive drive requirements.
6. Shaft layout.
7. Space available.
8. Service conditions.

Types of Belt Drives
Light Drives: used to transmit small powers at belt speeds up to about
10m/sinagriculturalmachinesandsmallmachinetools.
MediumDrives:Used totransmitmediumpoweratbeltspeedsover
10m/sbutupto22m/sasinmachinetools.
Heavy Drives: Used to transmit large powers at belt speed above 22 m/s as
incompressor&generators.

Types of Belt
[According to Shape]
Flat Belt:
used in factories
and workshops, where a
moderate amount of power is
to be transmitted, from one
pulley to another when two
pulleys are not more than 8 m
apart.
V-Belt:
used in factories
and workshops, where a
moderate amount of power is
to be transmitted, from one
pulley to another when two
pulleys are very near to each
other.
Circular or Rope Belt: used in factories and workshops,
where a greater amount of
power is to be transmitted, from
one pulley to another when two
pulleys are not more than 8 m
apart. e.g. Crane
Timing Belt:
They are toothed belts which transmit power
by means of teeth rather than friction. Hence there is no slip
occurring in these types of belts. They need toothed wheels.
e.g. CNC m/c, Automobiles

Types of Belt
[According to Materials]
Leather Belt :Leather belts are made from
1.2 m to 1.5 m long strip cut from either
side of the back bone of the top grade steer
hide.
The leather may be oak- tanned and
Chrome tanned. Leather belts are used
in steam & oil condition.
No. of layers: Single, Double, Triple ply
belts.
Rubber belt :These are made from
layers of fabric impregnated with rubber
composition. They can not withstand in
hot, oily and greasy conditions. They are
very flexible and can be made endless.
They are used in saw mills, paper mills
etc.
Cotton or fabric belt :These belts are
made from folding canvas or cotton duck.
They are impregnated with linseed oil to
make water proof. They are suitable in
warm climates, in damp atmosphere. They
are used in form machinery, belt conveyor
etc. i.e. Flooring mills

Types of Belt Drive [According to its Arrangement]
The power from one pulley to another can be transmitted by different
arrangement of the belts.
Open Belt Drive :
It is used, when shafts are arranged parallel
and rotating in the same direction, In this
case, the driver Apulls the belt from one side
(i.e. lower side) and delivers it to the other
side (j,e. upper side).
Thus the tension in the lower side belt will
be more than that in the upper side belt.
Hence lower side belt is known as tight side,
whereas the upper belt is known as slack
side,

Cross Belt Drive :
This belt drive is used when shaft are
arranged parallel and rotating in the
opposite direction. A crossed belt
drive can transmit more power than
open belt drive, as the angle of wrap is
more. However, the belt has to bend in
two different planes and it wears out
more.
Types of Belt Drive [According to its Arrangement]

Quarter Turn Belt Drive :
The quarter turn drive always
known as right angle belt
drive, is used with shafts
arranged at right angles and
rotating in one definite
direction. In order to prevent
the belt from leaving the
pulley, the width of the face
of the pulley should be
greater or equal to 1.4 b,
where b- is the width of the
belt. when the reversible
motion is desired, then a
quarter turn belt drive with
guide pulley.
Types of Belt Drive [According to its Arrangement]

Belt Drive with idlerPulleys :
A belt drive with an idler pulley, used with shafts
arrangement parallel and when an open belt drive
can not be used due to small angle of contact on
the smaller pulley. This type of drive is provided
to obtain in high velocity ratio and when the
required belt tension cannot be obtained by other
means.
Whenitisdesiredtotransmitmotionfromone
shaft to several shafts, all arranged in parallel, a
belt drive with many ideal pulleys can be
employed.
In conveyer system to avoid slackness of the belt,
idler pulleys are used.
Types of Belt Drive [According to its Arrangement]

Compound Belt Drive :
It is used to transmit power from
one shaft to another through a
number of pulleys.
Types of Belt Drive [According to its Arrangement]

Stepped orCone Pulley Drive :
A stepped or cone pulley drive, used for
changing the speed of the driven shaft
while the main or driving shaft runs at
constant speed. This is accomplished by
shifting the belt from one part of the steps
to the another.
Types of Belt Drive [According to its Arrangement]

Velocity ratio
It is the ratio between the velocities of the driver and the follower or driven

Slip of Belt
This may also cause some forward motion of the belt without carrying the
drivenpulleywithit.Thisiscalledslipofthebeltandisgenerallyexpressed
asa percentage. s
1
% = Slip between the driver and the belt
s
2
% = Slip between the belt and the follower
Velocity of the belt passing over the driver per second:
Velocity of the belt passing over the follower per second
s
1
% ,s
2
%
s
1
% ,s
2
%

Creep of Belt
This relative motion is termed as creep. When the belt passes from the slack side to the tight side, a certain portion of the belt extends
and it contracts again when the belt passes from the tight side to slack side. Due to these
changes of length, there is a relative motion between the belt and the pulley surfaces.
where?
1
and?
2
= Stress in the belt on the tight and slack side
respectively, and
E=Young’s modulus for the material of the belt.

Length of an Open Belt Drive
r
1
andr
2
= Radii of the larger and smaller pulleys,
x= Distance between the centers of two pulleys ( i.e. O
1
O
2
), and
L= Total length of the belt.
L = Arc GJE + EF + Arc FKH + HG = 2 (Arc JE + EF + Arc FK)

Length of an Open Belt Drive
L = Arc GJE + EF + Arc FKH + HG = 2 (Arc JE + EF + Arc FK)
Expanding this equation by binomial theorem for EF:

Length of a Cross Belt Drive
L = Arc GJE + EF + Arc FKH + HG = 2 (Arc JE + EF + Arc FK)
Same as Open belt drive, So try to do it yourself

Power Transmitted by a Belt Drive
T
1
and T
2
= Tensions in the tight and slack side of the belt respectively in newtons
The effective turning (driving) force at the circumference of the follower is the
difference between the two tensions ( i.e. T
1
–T
2
).

Ratio of Driving Tensions For Flat Belt

Determination of Angle of Contact

Ratio of Driving Tensions
Ratio of Driving Tensions for Rope Drive: Ratio of Driving Tensions for V-belt:
Ratio of Driving Tensions for Flat belt:

Next lecture
• Numerical problems on belt
rope

Contact details:
Rohit Kumar Singla
Email ID: [email protected]

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