| Cards | 10 |
| Topics | Catalytic Converter, Crankshaft, Cylinders, Exhaust Manifolds, Exhaust Stroke, Master Cylinder, Oil Pan, Spark Plugs, Thermostat |
The catalytic converter converts pollutants in exhaust gas into less pollutant substances like carbon dioxide and water.
The crankshaft converts the reciprocating motion of the piston into the rotational motion that's used to power the vehicle and its components.
Cylinders act as a guide for the pistons that translate the heat energy of combustion into the mechanical energy necessary to move a vehicle. Piston rings seal the piston to the cylinder to contain combustion gases and also regulate the oil distribution between the piston and cylinder wall. A cylinder head closes in the top of the cylinder forming the combustion chamber which is sealed by a head gasket (head). The head provides space for air and fuel intake valves, exhaust valves, and mounts for spark plugs and fuel injectors.
The cast iron exhaust manifolds collect engine exhaust gas from multiple cylinder exhaust valves and deliver it to the exhaust pipe. Exhaust manifolds can be generic or specially tuned (header pipes) to the engine. Header pipes deliver higher performance but are more expensive and less durable.
During the exhaust stroke, just before the piston reaches bottom dead center the exhaust valve opens. The resulting gases from combustion are then pushed out through the exhaust valve as the piston travels up the cylinder to top dead center, completing stroke four of the four-stroke piston cycle.
The master (brake) cylinder converts pressure on the brake pedal to hydraulic pressure in the brake lines.
The oil pan contains the engine oil reservoir of from four to six quarts of oil and feeds the oil pump through the oil pickup tube. An oil strainer floats at the top of the oil in the oil pan and screens debris from the oil before feeding it to the oil pump.
Spark plugs receive current from the distributor and use it to spark combustion in the combustion chamber of a cylinder.
The thermostat controls coolant (and, through it, engine) temperature by regulating the flow of coolant through the radiator. A bypass tube allows coolant to bypass the radiator and flow back into the water pump when its temperature is low enough that the thermostat is closed.