Slip Ring Induction Motor

A 3 phase induction motor is an electromechanical device that converts electrical energy into mechanical energy that works based on the Electromagnetic induction principle.

A 3 phase induction motor has two main parts, Stator and Rotor. The rotor is separated from the stator by a small air gap which ranges from 0.4 to 4mm, depending on the power of the motor.

Stator:

Stationary part of the machine is called stator.

Stator frame:

• Stator frame is the outer protecting part of the motor, made up of Cast iron or cast steel.
• Main function of the stator frame is support the stator core and provides protection and mechanical strength of all inner part of the machines.

Stator Core and Winding:

• It is an outer, stationary, hollow cylindrical structure made up of thin laminations of silicon steel having slots on the inner periphery.
• Laminated silicon steel used to reduce hysteresis and eddy current loss.
• The insulated copper conductors placed in the stator slots and are suitably connected either in star or delta depending upon which type of starting method we use.
• 3phas stator winding is wound for a definite number of poles as per the requirement of speed.
• 3 phase ac supply is applied to the 3 phase winding, produce a  rotating magnetic field running at synchronous speed.

Rotor: Rotating part of the motor, made up of laminated silicon steel mounted on the shaft. It is a hollow core having slots on its outer periphery. Copper or aluminium windings placed in these slots.

Slip ring rotor:

• It consists of laminated cylindrical core having skewed slots on its outer periphery, Carries three phase windings connected either in star or delta.
• The open end terminals of the rotor windings are brought out and joined three insulated slip rings mounted on the rotor shaft, which are in contact with stationary brushes.
• Three brushes are further externally connected to a 3 phase star connected rheostat.
• At starting external resistance are added in the rotor circuit to give high starting torque, these resistance are gradually reduced to zero and slip rings are automatically short circuited by means of metal cooler in running condition.
• These metal cooler lifted the brushes  and connect all the slip rings together to reduce frictional loss and the wear and tear.

These rheostat connection, due to the fact that torque of the induction motor depends upon the rotor resistance. high rotor resistance offers higher starting torque. but the running torque will be low because of the increased losses and low speed. hence it is advisable to have low resistance in the rotor while in its operation.