Car manufacturers have developed a variable cam timing system that adjusts the cam to crankshaft timing depending on change in the engine speed and load. The engine computer plays a vital role in the engine's performance as it adjusts the camshaft timing depending on the vehicle's engine speed and load. In any range of engine speeds only one camshaft position (in relationship to the crankshaft) is optimum for power and economy. Pressurized engine oil is control by the engine computer through an oil control valve which allows engine oil to flow to the cam timing actuator (or phaser), as the oil is forced into the actuator the camshaft timing advances, when the pressure is released a return spring supplies force to return the actuator to standard position.
Variable Cam Timing Phaser Operation
The specialty of a double overhead cam engine is that it has two cams per head. This means that the inline engines are equipped with two cams, four cams in V style engines. The use of double overhead cams is more common in engines which have more than two valves per cylinder. This is because a single camshaft doesn't have the ability to include sufficient cam lobes that can accommodate all the valves present in a three or four valve per cylinder engine. Double overhead cams give the advantage of adding more exhaust and intake valves. More valves allow the exhaust and intake gases to flow freely because of the increase in the number of openings, this in turn improves engine power and economy.
Four Valves Per Cylinder Configuration
A pushrod style of engine has a different valve opening configuration; the camshaft is housed in the engine block instead of the cylinder head. The camshaft utilizes lobe followers or lifters that connect to the rocker arms through a push rod.
There are many types of camshaft arrangements; some common types are single overhead cam or SOHC, double overhead cam or DOHC and pushrod, rocker arm style of systems. In a single overhead cam type, the engine is equipped with only one cam per cylinder head. Therefore, there is one cam in a four cylinder engine, also with straight six cylinder engine. In v6 or v8 engine configurations there will be one camshaft for each cylinder head, two camshafts and double the camshafts for DOHC engines. The valve spring maintains pressure against the valve forcing the valve to contact the valve seat, sealing the intake or exhaust port. If the valve spring is weak or is broken the valve will lose pressure and will cause the engine to run poorly.
ypical In Block Camshaft Configuration
This system is not as efficient because of the increase in weight of the system. In turn, increases the valve springs load, slowing the engine down. Overhead camshaft engines are more efficient and can produce more power.
A Camshaft is commonly used to operate poppet valves in a piston engine. A cylindrical rod is situated in the cylinder block or cylinder head which has oblong lobes or cams which push a tappet or lifter to raise and lower the intake and exhaust valves. This force is applied on the valve directly or through an intermediate mechanism such as a rocker arm, lifter (cam follower) and push rods are used to press against the valve for movement. Each valve utilizes a spring which will return them to their original position (closed) after the force is removed.
Cams are designed according to the RPM and horsepower range desired. When the intake valve is pushed open, the piston travels down pulling an air/fuel charge into the cylinder. This intake charge is a mixture of air and fuel and is ready for combustion. The faster the engine is running the faster the air and fuel mixture moves into the engine which also means that the intake and exhaust valves open and close quicker. This parameter is known as the valve duration and is controlled by the cam lobe width profile.
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