Design of keys

Prepared By…
Mr.S.Saravanakumar. M.E.,
Assistant Professor
Department of Automobile Engineering
Easwari Engineering College

• A key is a piece of mild steel inserted between the shaft
and hub or boss of the pulley to connect these together in
order to prevent relative motion between them.
• It is always inserted parallel to the axis of the shaft.
• Keys aroused as temporary fastenings and are subjected to
considerable crushing and shearing stresses
Video

• Sunk keys,
• Saddle keys,
• Tangent keys,
• Round keys, and
• Spines.

• The sunk keys are provided half in the keyway of the
shaft and half in the keyway of the hub or boss of the
pulley.
The sunk keys are of the following type…..
1. Rectangular sunk key
2. Square sunk key
3. Parallel sunk key
4. Gib-head key
5. Feather key
6. Woodruff key

• A rectangular sunk key is shown in aboveFig.
The usual proportionsof this key are :
width of key, (w) = d / 4;
thickness of key, (t) = 2 w/ 3 = d/ 6
Where d =Diameter of the shaft or diameter of the hole in
the hub.
The key has taper 1 in 100on the top sideonly

The only difference between a rectangular sunk key and a
square sunk key is that its width and thickness are equal,
i.e. w = t = d/4

• The parallel sunk keys may be of rectangular or square
section uniform in width and thickness throughout. It may
be noted that a parallel key is a taper less
• and is used where the pulley, gear or other mating piece
is required to slide along the shaft

It is a rectangular sunk key with a head at one end known as gib head . It
is usually provided to facilitate the removal of key.
The usual proportions of the gib head key are :
Width, w = d/ 4;
thickness at large end, t = 2 w/ 3= d/6

• A key attached to one member of a pair and which permits
relative axial movement is known as feather key .
• It is a special type of parallel key which transmits a turning
moment and also permits axial movement. It is fastened either to
the shaft or hub, the key being a sliding fit in the key way of the
moving piece

• The woodruff key is an easily adjustable key. It is a piece from
a cylindrical disc having segmental cross-section in front view
as shown in Fig.
• A woodruff key is capable of tilting in a recess milled out in
the shaft by a cutter having the same curvature as the disc
from which the key is made. This key is largely used in
machine tool and automobile construction.

The main advantages of a woodruff key
• It accommodates itself to any taper in the hub or boss of
the mating piece.
• It is useful on tapering shaft ends. Its extra depth in the
shaft prevents any tendency to turnover in its keyway.
The disadvantages are :
• The depth of the keyway weakens the shaft.
• It can not be used as a feather

The saddle keys are of the following two types
• Flat saddle key
• Hollow saddle key.
• A flat saddle key is a taper key
which fits in a keyway in the hub and
is flat on the shaft as shown in Fig.for
comparatively light loads
• A hollow saddle key is a taper key
which fits in a keyway in the hub
and the bottom of the key is shaped
to fit the curved surface of the shaft.
Since hollow saddle keys hold on
by friction. therefore these are
suitable for light loads. It is usually
used as a temporary fastening in
fixing and setting eccentrics, cams
etc

The tangent keys are fitted in pair at right angles as shown
in Fig. Each key is to withstand torsion in one direction
only. These are used in large heavy duty shafts.

• The round keys, as shown in Fig (a), are circular in section and
fit into holes drilled partly in the shaft and partly in the hub.
• They have the advantage that their keyways may be drilled and
reamed after the mating parts have been assembled. Round keys are
usually considered to be most appropriate for low power drive
• Sometimes the tapered pin, as shown in Fig. (b), is held in place by
the friction between the pin and the reamed tapered hole

• Sometimes, keys are made integral with the shaft
which fits in the keyways broached in the hub. Such
shafts are known as splined shafts as shown in Fig.
• These shafts usually have four, six, ten or
sixteensplines. The splined shafts are relatively
stronger than shafts having a single keyway.
• The splined shafts are used when the force to be
transmitted is large in proportion to the size of the
shaft as in automobile transmission and sliding gear
transmissions.
• By using splined shafts, we obtain axial movement as
well as positive drive is obtained

The forces acting on a key for a clockwise torque being transmitted from a
shaft to a hub are shown in Fig
Let
T =Torque transmitted by the shaft,
F=Tangential force acting at the circumference of the shaft,
D =Diameter of shaft,
l=Length of key,
w=Width of key.
T =Thickness of key, and
τ =Shear stresses for the material of key
σc=crushing stresses for the material of key

• A little consideration will show that due tothe power transmitted by
the shaft, the key may fail due to shearing or crushing.
• Considering shearing of the key, the tangential shearing force acting at
the circumference of the shaft,
F =Area resisting shearing ×Shear stress
F= L×w×τ
∴Torque transmitted by the shaft
T = F× d/2 = l ×w×τ× d/2……………(i)
• Considering crushing of the key, the tangential crushing force
acting at the circumference of the shaft,
F=Area resisting crushing ×Crushing stress
F=l × t/2× σc
∴Torque transmitted by the shaft,
T =F × d/2 = l × t/2 ×σc× d/2……………(ii)

The key is equally strong in shearing and crushing
EQUATION (i) = (ii)
L×w×τ × d/2= l× t/2 × σc× d/2
W/t = σc /2τ…………………………(iii)
The permissible crushing stress for the usual key material is at
least twice the permissible shearing stress.
Therefore from above equation we have w =t
In other words, a square key is equally strong in shearing and
crushing

Design of keys

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