The 2.0L Zetec engine is a four cylinder in-line engine with double overhead camshafts and 16 valves. The 16 valve cylinder head improves volumetric efficiency, particularly at high engine speeds.
The cylinder head is made of aluminum alloy and the cylinder block is made of cast iron.
The spark plug is installed in the center of the roof-shaped combustion chamber to ignite the air/fuel mixture in the combustion chamber. The central location of the spark plug causes the flame front to be evenly spread across the combustion chamber, which also reduces spark knock.
Both camshafts are driven by a shared timing belt, and operate four valves per cylinder by means of mechanical valve tappets. One valve spring on each valve is used to close the valve.
Upper Engine Components
CAUTION:Only tension the timing belt counterclockwise.
An automatic timing belt tensioner makes sure of the correct timing belt tension. An additional spring-loaded cam provides correct belt tension during operation. The belt tensioner can operate 30 degrees either side of its central position.
The basic adjustment of the belt tensioner can no longer be controlled after the aligning tools and adjusting pin have been taken out (the spring forces from the valve train exert pressure on the timing belt and alter the position of the belt tensioner).
The 2.0L Zetec engine is equipped with a glass fiber-reinforced plastic intake manifold. The intake manifold ports are designed so the intake paths are the same length for all the cylinders.
- This gives the following advantages:
-
reduced heat transfer to the injectors, thereby avoiding vapor locks
-
reduction of fuel deposits on the intake walls during cold starts
-
less heating of the intake air when the engine is hot
The crankshaft runs on five bearings and has a counterweight for each cylinder. The central main bearing has two bearing half shells which guide the crankshaft along its axis as well as adjusting the end float.
Crankshaft Bearings
The EEC-V module manages the 2.0L Zetec engine. The module requires a large amount of information about the current operating conditions of the engine and, where appropriate, the automatic transaxle. The EEC-V module obtains this information by means of sensors.
The EEC-V module controls:
- the fully electronic ignition system (EI).
- the sequential electronic fuel injection system (SFI).
- the air conditioning system together with the cooling system.
- the transaxle control for the CD4E automatic transaxle.
The purpose of the lower crankcase is to reduce engine vibrations. This further reduces the level of noise inside the vehicle. There is a metal gasket between the lower crankcase and the cylinder block.
Lower Crankcase Spacer Shims