Sunday, January 30, 2011

FLIGHT-LINE SAFETY (Line Maintenance)

Many sources of accidents on the flight line are involved with propellers and rotor blades. They are difficult to see when they are turning, and personnel sometimes become distracted and forget about the danger. The main difference between these, and other flight-line accidents, is that they are almost always fatal.

Most blades have high-visibility markings, to ensure that they can be seen when they are turning. These markings vary from a yellow blade tip marking, to black and white alternate stripes along the full blade length.

To reduce the risk of propeller and rotor blade strikes, it is best to follow strict rules as to the correct way to approach and leave the vicinity of an aircraft or helicopter whilst it is under power. For example (and allowing for the fact that there are specific rules laid down for each aircraft), installing and removing chocks should normally be done from the wing-tip direction. Boarding and leaving a helicopter should always be done from the side.

When dealing with running jet engines there are similar dangers. These come not only from the noise risk, which can result in deafness, but also from the risk of intake suction, which has resulted in ramp personnel being sucked into the engine and being killed. At the rear of the aircraft, there is the risk of jet blast, which, at maximum thrust is quite capable of overturning a vehicle if it passes too close behind the aircraft. Piston-powered aircraft (depending on their size) will have similar danger areas.


Aircraft DC generator construction

Aircraft dc generators have for the most part been replaced by alternators on modern aircraft.  However, there are still several dc generators currently in operation in older aircraft.  


The Yoke: This is a cylinder of cast iron which supports the pole pieces of the electromagnetic field.


The Armature: This is driven by the aircraft engine and holds the windings in which the output voltage of the machine is induced.



The Commutator: The voltage induced in the armature is AC.  The commutator changes the AC voltage into DC voltage.

The Quill Drive: This is a weak point which is designed to shear and protect the engine, if the generator seizes.

The Brushes: These are made of carbon and collect the DC voltage from the moving armature and commutator.

The Suppressor: This reduces radio interference, which may be caused by sparking between the brushed and commutator.

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