The connecting rod connects the piston to the crankshaft.
The crankshaft converts the up and down action of
the piston into rotary motion.
The cylinder head fits over the top of the block and
holds the valves.
The valves open and close to control fuel entry into
and exhaust exit from the combustion chamber.
The combustion chamber is a cavity formed above
the piston and below the cylinder head for containing
the burning fuel.
The camshaft opens the valves at the proper time.
The valve springs close the valves.
The timing belt or chain turns the camshaft at one-half
of the engine speed.
Engine Block
The engine block, also called the cylinder block,
forms the framework or “backbone” of an engine. This is
because many of the other components of an engine fasten
to the block. Cast from iron or aluminum, the block is the
largest part of an engine. Figure 1-2 shows a cutaway view
of a basic engine block. Note the part names.
A cylinder is a large hole machined through the top of
the engine block. The piston fits into the cylinder. During
engine operation, the cylinder, also called the cylinder
bore, guides the piston as it slides up and down. The cylin-
der is slightly larger than the piston to produce a clearance
(space) between the two parts.
Main caps are bolted to the bottom of the block. They
hold the crankshaft in place and form the bottom half of
the main bore.
The main bore is a series of holes machined from the
front to the rear of the block. The crankshaft fits into these
holes. With the engine running, the crankshaft spins or
rotates in the main bore.
The deck is a flat surface machined on the top of the
block for the cylinder head. The head is bolted to the deck.
Coolant and oil passages in the deck align with openings
in the cylinder head.
Coolant passages, or water jackets, surround the
cylinders and combustion chamber. They are hollow areas
inside the block and head for coolant. Coolant circulated
through the water jackets removes the heat generated by
the fuel burning in the cylinders.
The crankcase is the lower area of the block. The
crankshaft spins inside the crankcase.
Piston
The piston converts the pressure of combustion into
movement. See Figure 1-3. Combustion is the burning of
Chapter 1 Review of Engine Operation 11
Main caps
Main bolts
Main
bore
Crankcase
Cylinder
Deck
Water
jacket
Cylinder
block
Figure 1-2. The block is the framework for holding the other
engine components. Note the parts of the block. This is a
simplified, one-cylinder engine.
Piston slides
up and down
in cylinder
Figure 1-3. The piston fits into a cylinder bored through the
block. The piston slides up and down during engine operation
acting as a pumping and power-producing element.