DC MOTER how it works |basic information |sciforus
DC MOTER basic information
DC MOTOR :A DC motor is any of a class of rotary electrical machines that converts direct current electrical energy into mechanical energy.
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PRINCIPLE:
A current carrying conductor placed perpendicular to magnetic field experiences a force.
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It is based on the principle that when a current-carrying conductor is placed in a magnetic field, it experiences a mechanical force whose direction is given by Fleming's Left-hand rule.
CONSTRUCTION:1.1 Yoke
a) Functions :
It serves the purpose of outermost cover of the d.c. machine. So that the insulating materials get protected from harmful atmospheric elements like moisture, dust and various gases like SO2, acidic fumes etc.It provides mechanical support to the poles.It forms a part of the magnetic circuit. It provides a path of low reluctance for magnetic flux. The low reluctance path is important to avoid wastage of power to provide same flux. Large current and hence the power is necessary if the path has high reluctance, to produce the same flux.
b) Choice of Material : To provide low reluctance path, it must be made up of some magnetic material. It is prepared by using cast iron because it is cheapest. For large machines rolled steel, cast steel, silicon steel is used which provides high permeability i.e. low reluctance and gives good mechanical strength.
1.2 Poles
Each pole is divided into two parts namely, I) Pole core and II) Pole shoe.
a) Functions of pole core and pole shoe :
Pole core basically carries a field winding which is necessary to produce the flux.It directs the flux produced through air gap to armature core, to the next pole.Pole shoe enlarges the area of armature core to come across the flux, which is necessary to produce larger induced e.m.f. To achieve this, pole shoe has been given a particular shape.
b) Choice of Material : It is made up of magnetic material like cast iron or cast steel. As it requires a definite shape and size, laminated construction is used. The laminations of required size and shape are stamped together to get a pole which is then bolted to the yoke.
a) Functions :
It serves the purpose of outermost cover of the d.c. machine. So that the insulating materials get protected from harmful atmospheric elements like moisture, dust and various gases like SO2, acidic fumes etc.It provides mechanical support to the poles.It forms a part of the magnetic circuit. It provides a path of low reluctance for magnetic flux. The low reluctance path is important to avoid wastage of power to provide same flux. Large current and hence the power is necessary if the path has high reluctance, to produce the same flux.
b) Choice of Material : To provide low reluctance path, it must be made up of some magnetic material. It is prepared by using cast iron because it is cheapest. For large machines rolled steel, cast steel, silicon steel is used which provides high permeability i.e. low reluctance and gives good mechanical strength.
Each pole is divided into two parts namely, I) Pole core and II) Pole shoe.
a) Functions of pole core and pole shoe :
Pole core basically carries a field winding which is necessary to produce the flux.It directs the flux produced through air gap to armature core, to the next pole.Pole shoe enlarges the area of armature core to come across the flux, which is necessary to produce larger induced e.m.f. To achieve this, pole shoe has been given a particular shape.
b) Choice of Material : It is made up of magnetic material like cast iron or cast steel. As it requires a definite shape and size, laminated construction is used. The laminations of required size and shape are stamped together to get a pole which is then bolted to the yoke.
1.3 Field Winding (F1-F2)
The field winding is wound on the pole core with a definite direction.
a) Functions : To carry current due to which pole core, on which the field winding is placed behaves as an electromagnet, producing necessary flux.
As it helps in producing the magnetic field i.e. exciting the pole as an electromagnet it is called Field winding or Exciting winding.
b) Choice of material : It has to carry current hence obviously made up of some conducting material. So aluminium or copper is the choice. But field coils are required to take any type of shape and bend about pole core and copper has good pliability i.e. it can bend easily. So copper is the proper choice.
Note : Field winding is divided into various coils called field coils. These are connected in series with each other and in such a direction around pole cores, such that alternate ‘N’ and ‘S’ poles are formed.
By using right hand thumb rule for current carrying circular conductor, it can be easily determined that how a particular core is going to behave as ‘N’ or ‘S’ for a particular winding direction around it. The direction of winding and flux can be observed in the F
1.4 Armature
It is further divided into two parts namely,
I) Armature core and II) Armature winding
I) Armature core : Armature core is cylindrical in shape mounted on the shaft. It consists of slots on its periphery and the air ducts to permit the air flow through armature which serves cooling purpose.
a) Functions :
Armature core provides house for armature winding i.e. armature conductors.To provide a path of low reluctance to the magnetic flux produced by the field winding.
b) Choice of Material : As it has to provide a low reluctance path to the flux, it is made up of magnetic material like cast iron or cast steel.
It is made up of laminated construction to keep eddy current loss as low as possible. A single circular lamination used for the construction of the armature core
II) Armature winding : Armature winding is nothing but the interconnection of the armature conductors, placed in the slots provided on the armature core periphery. When the armature is rotated, in case of generator, magnetic flux gets cut by armature conductors and e.m.f. gets induced in them.
a) Functions :
Generation of e.m.f takes place in the armature winding in case of generators.To carry the current supplied in case of d.c. motors.To do the useful work in the external circuit.
b) Choice of material : As armature winding carries entire current which depends on external load, it has to be made up of conducting material, which is copper.
Armature winding is generally former wound. The conductors are placed in the armature slots which are lined with tough insulating material.
1.5 Commutator
We have seen earlier that the basic nature of e.m.f. induced in the armature conductors is alternating. This needs rectification in case of d.c. generator, which is possible by a device called commutator.
a) Functions :
To facilitate the collection of current from the armature conductors.To convert internally developed alternating e.m.f. to unidirectional (d.c.) e.m.f.To produce unidirectional torque in case of motors.
b) Choice of material : As it collects current from armature, it is also made up of copper segments.
It is cylindrical in shape and is made up of wedge shaped segments of the hard drawn, high conductivity copper. These segments are insulated from each other by thin layer of mica. Each commutator segment is connected to the armature conductor by means of copper lug or strip.
1.6 Brushes and Brush Gear
Brushes are stationary and resting on the surface of the commutator.
a) Function : To collect current from commutator and make it available to the stationary external circuit.
b) Choice of material : Brushes are normally made up of soft material like carbon.
Brushes are rectangular in shape. They are housed in brush holders, which are usually of box type. The brushes are made to press on the commutator surface by means of a spring, whose tension can be adjusted with the help of lever. A flexible copper conductor called pig tail is used to connect the brush to the external circuit. To avoid wear and tear of commutator, the brushes are made up of soft material like carbon.
1.7 Bearings
Ball-bearings are usually used as they are more reliable. For heavy duty machines, roller bearings are prederred.
WORKING:
It is based on the principle that when a current-carrying conductor is placed in a magnetic field, it experiences a mechanical force whose direction is given by Fleming's Left-hand rule and whose magnitude is given by
Force, F = B I l newton
Where B is the magnetic field in weber/m2.
I is the current in amperes and
l is the length of the coil in meter.
The force, current and the magnetic field are all in different directions.
If an Electric current flows through two copper wires that are between the poles of a magnet, an upward force will move one wire up and a downward force will move the other wire down.
Figure 1: Force in DC Motor
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Figure 2 : Magnetic Field in DC Motor
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Figure 3 : Torque in DC Motor
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Figure 4 : Current Flow in DC Motor
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The loop can be made to spin by fixing a half circle of copper which is known as commutator, to each end of the loop. Current is passed into and out of the loop by brushes that press onto the strips. The brushes do not go round so the wire do not get twisted. This arrangement also makes sure that the current always passes down on the right and back on the left so that the rotation continues. This is how a simple Electric motor is made.
Uses of D.C. motor
It is used in electric cars,rolling mills,electric cranes,lifts,drilling machine,fan,hair dryers,blowers,tape recorder,refrigerators,washing machine,mixers,blenders.
Tags:armature coil, battery, brushes, commercial motor, electric motor, principle of electric motor, split ring type commutator, strong field magnet, uses ofd.c. motor
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