2. The starting system
includes the battery, starter motor,
solenoid, ignition switch, and in some cases, a
starter relay.
An inhibitor (neutral safety) switch is
included in the starting system circuit to
prevent the vehicle from being started while in
gear.
3. BATTERY
An electrochemical device for storing
energy in chemical form so that it can be
released as electricity for cranking the engine
and powering the electrical load. Also a group of
electric cels connected together.
4. STARTING MOTOR
A small, powerful electric motor that
converts electrical energy from the battery
into mechanical energy to spin the
crankshaft and start the engine.
5. Starter motor
A starter is an electric motor that turns over or
"cranks" the engine to start it.
A starter consists of the very powerful DC electric
motor and the starter solenoid that is usually
attached to the motor
Inside, a typical starter motor has the electric
windings (coils) attached to the starter motor housing
and the armature (the rotating part) that is
connected through the carbon brushes in series with
the windings.
On the front end of the armature, there is a small gear
that attached to the armature through an overrunning
clutch. This part is commonly known as the Bendix.
7. The starter solenoid works as a powerful electric relay -
when activated, it closes the electric circuit and sends
the battery power to the starter motor.
At the same, the starter solenoid pushes the starter
gear forward to mesh with the engine flywheel.
A typical starter solenoid has one small connector for
the control wire and two large terminals: one for the
positive battery cable and the other for the starter
motor.
8. IGNITION SWITCH
The key-operated main power switch that opens
and closes the circuit that supplies current
to the ignition and other electrical systems.
9. INHIBITOR (NEUTRAL SAFETY)
*NEUTRAL-START SWITCH
A switch wired into the ignition switch to prevent engine
cranking unless the transmission shift lever is in NEUTRAL.
10. STARTER RELAY
*RELAY =
An electrical device that opens or closes a
circuit in response to a voltage signal.
11. Battery cables
A starter motor requires
a very high current to crank
the engine, that's why it's
connected to the battery with
thick (large gauge) cables.
The negative (ground)
cable connects the "-" battery
terminal to the engine
cylinder block close to the
starter.
The positive cable connects
the "+" battery terminal to the
starter .solenoid.
12. To start the automobile engine, the crankshaft must
turn fast enough for air-fuel mixture to enter the
cylinders.
An electric starter or starting motor does this job.
It converts electrical energy from the battery into
mechanical energy that rotates the crankshaft.
13. The starting system
has 2 separated but related circuits
1. Low-current control circuit
2. High-current motor circuit
both operate on battery voltage.
1. Low-current control circuit (thin arrows)
2. High-current motor circuit (thick arrows)
both operate on battery voltage.
14. *When the driver turns the ignition key to START,
the CONTROL CIRCUIT causes heavy contacts to
close in a starter relay or solenoid switch.
*High current then flows from the battery insulated
Cable through these contacts to the starting motor.
15. A gear on the starting motor shaft moves into mesh
with the ring gear around the engine flywheel or drive
plate.
As the starting-motor shaft turns, it spins the
crankshaft fast enough to start the engine.
17. 3 BASIC STARTING SYSTEM TROUBLES
1.) The engine does not crank.
2.) The engine cranks slowly
but does not start.
3.) The engine cranks normally but does not start.
(not caused by starting sys.)
*problem “fuel or ignition sys./engine”
OTHER COMPLAINTS
Relay/solenoid-chattering
Slow disengagement of the pinion from the ring
gear.