199004593 - INTRODUCTION - CRANKSHAFT
CONSTRUCTION SPECIFICATIONS
Made from induction hardened cast iron. Resting on five main bearings with interposed half-bearings divided into size categories.The crankshaft endfloat is adjusted by two half-rings housed on the middle main bearing.Eight counterweights at 180° balance the crankshaft rotary masses with precision. A channel running along the length of the shaft lubricates the main journals and crankpins.COMPOSITION
The crankshaft consists of:
- main journals (1), through which it rotates on supports with bearings (bushings) in between;
- crank pins (2) above which the connecting rod big ends are hinged;
- crank arms (3), at the same height as the midway stroke which join the main journals and the crank pins.
In addition, the shaft is also prepared for:
- fitting the flywheel; - fitting the gear which transmits power to the timing system components by means of a toothed belt.
OPERATION
The crankshaft is the component that transforms the alternating rectilinear motion of the piston into a rotary motion by means of the connecting rod.It is subject to forces that vary sharply in intensity and direction and must therefore be sufficiently resistant.It''s shape depends on the:
- number of cylinders
- engine type (in line, v-formation, w-formation, etc.)
- number of bearing supports
- number of strokes (2 stroke or 4 stroke)
To prevent damaging vibrations to the engine, the crankshaft should be balanced both statically and dynamically. The vibrations are due to:
- centrifugal forces produced by the masses equipped with a rotary motion (crank pins, connecting rod big end, 1/3 of the weight of the connecting rod, crank arms);
- inertia forces produced by the masses equipped with an alternating rectilinear motion (piston, gudgeon pin, 2/3 of the weight of the connecting rod).
The firing order is achieved by offsetting the cranks, in engines with several cylinders, at an angle of:
- a = 180° t/ i
where:
- t = engine times
- i = number of cylinders
The crank offset angle is equal to:
- a = 180
- 4/4= 180°
There are two types of firing order: 1, 2, 4, 3 or 1, 3, 4, 2; the better known is the firing order 1, 3, 4, 2 because the centrifugal forces and the inertia forces are more well balanced.