1. SHAFT COUPLINGS – Rigid Flange
D. Narendra Varma,
Assistant Professor,
Mechanical Engineering Dept.,
Miracle Educational society Group of Institutions.
3. PROTECTIVE TYPE RIGID COUPLING
• Protects operator
against injuries
Advantages
• High torque
transmitting capacity
• Easy to assemble &
dismantle
• Simple in construction
• Easy to design &
manufacture
4. Disadvantages
• Cannot tolerate misalignment between two
shafts
• Used only where the motion is free from shocks
& vibrations
• Requires more radial space
11. Problem 1
A rigid coupling is used to transmit 20 kW
power at 720 rpm. There are four bolts and the
pitch circle diameter of the bolts is 125 mm. The
bolts are made of steel 45C8 (Syt = 380 N/mm2)
and the factor of safety is 3. Determine the
diameter of the bolts.
Assume that the bolts are finger tight in reamed
and ground holes.
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13. Problem 2
A rigid coupling is used to transmit 50 kW power
at 300 rpm. There are six bolts. The outer
diameter of the flanges is 200 mm, while the
recess diameter is 150 mm. The coefficient of
friction between the flanges is 0.15. The bolts
are made of steel 45C8 (Syt= 380 N/mm2) and
the factor of safety is 3. Determine the diameter
of the bolts.
Assume that the bolts are fitted in large clearance
holes.
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15. Problem 3
• It is required to design a rigid type of flange
coupling to connect two shafts. The input shaft
transmits 37.5 kW power at 180 rpm to the
output shaft through the coupling. The service
factor for the application is 1.5, i.e., the design
torque is 1.5 times of the rated torque. Select
suitable materials for various parts of the
coupling, design the coupling and specify the
dimensions of its components.
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20. References:
1. Machine Design - V.Bandari .
2. Machine Design – R.S. Khurmi
3. Design Data hand Book - S MD Jalaludin.