RECIPROCATING-ENGINE OPERATING PRINCIPLES
The reciprocating engine is also known as an internal-combustion engine. This name is used because the fuel mixture is burned within the engine. To understand how a reciprocating engine works, we must first study its parts and the functions they perform.
The seven major parts are:
(1) The cylinders(2) The pistons
(3) The connecting rods
(4) The crankshaft
(5) The valves
(6) The spark plugs
(7) A valve operating mechanism (cam).
Refer to the relative location of these parts in Figure 6-2 .
Engine Operation.
The cylinder is closed on one end (the cylinder head), and the piston fits snugly in the cylinder. The piston wall is grooved to accommodate rings which fit tightly against the cylinder wall and help seal the cylinder's open end so that gases cannot escape from the combustion chamber. The combustion chamber is the area between the top of the piston and the head of the cylinder when the piston is at its uppermost point of travel.The up-and-down movement of the piston is converted to rotary motion to turn the propeller by the connecting rod and the crankshaft, just as in most automobiles. Note the crankshaft, connecting rod, and piston arrangement in Figure 6- and imagine how the movement of the piston is converted to the rotary motion of the crankshaft. Note particularly how the connecting rod is joined to the crankshaft in an offset manner.
The valves at the top of the cylinder open and close to let in a mixture of fuel and air and to let out, or exhaust, burned gases from the combustion chamber. The opening and closing of a valve are done by a cam geared to the crankshaft. This gearing arrangement ensures that the two valves open and close at the proper times.
Now let's consider the movement of the piston (four strokes) and the five events of a cycle (see figure 6-3 ).
To see the animation 6-3 press here.
1. The Intake Stroke
The cycle begins with the piston at top center; as the crankshaft pulls the piston downward, a partial vacuum is created in the cylinder chamber. The cam arrangement has opened the intake valve, and the vacuum causes a mixture of fuel and air to be drawn into the cylinder.2. & 3. Compression and Ignition Stroke
As the crankshaft drives the piston upward in the cylinder, the fuel and air mixture is compressed. The intake valve has closed, of course, as this upward stroke begins. As the compression stroke is completed and just before the piston reaches its top position, the compressed mixture is ignited by the spark plug.4. Power Stroke
The very hot gases expand with tremendous force, driving the piston down and turning the crankshaft. The valves are closed during this stroke also.5. Exhaust Stroke
On the second upward (or outward, according to the direction the unit is pointed) stroke, the exhaust valve is opened and the burned gases are forced out by the piston.At the moment the piston completes the exhaust stroke, the cycle is started again by the intake stroke. Each piston within the engine must make four strokes to complete one cycle, and this complete cycle occurs hundreds of times per minute as the engine runs.
The overall principles of reciprocating-engine operation are easy to understand if you remember what happens with each stroke that the piston makes. For this reason, you may find the chart in Table 6-3 helpful.
Table 6-3 | ||
Direction of Movement | Event (what happens) | |
1. | Inward (Down) | Intake |
2. | Outward (Up) | Compression and Ignition |
3. | Inward (Down) | Power |
4. | Outward (Up) | Exhaust |
Reciprocating-Engine Horsepower.
Most persons are acquainted with the term horsepower as applied to automobile and aircraft reciprocating engines. The term was coined by James Watt, the inventor of the steam engine, who wished to evaluate the power output of his steam engine. Watt hitched a horse to an apparatus and determined that the horse could lift 550 pounds one foot in one second. Thus, one horsepower became the power to lift 550 pounds one foot per second, or 33,000 foot-pounds per minute (550 x 60).If an aircraft reciprocating engine is rated at 150 horsepower, it means the engine is capable of producing this much power. However, the engine has to be running at a certain speed before that much power is produced. The same is true for all other types of reciprocating engines.
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