Without them, flying would be much more uncomfortable: the aerobridge or passenger boarding bridge (also called gangway or passenger bridge) allows sheltered, flat level entry into aircraft at thousands of airports worldwide. In the early days of flying the entry was much easier. The small propeller machines had built-in small stairs that were simply lowered. Even today, smaller aircraft usually use built-in stairs, since the slope of the aerobridge would otherwise be too steep.
How would it look without the passenger boarding bridge? Modern commercial aircraft have entry height of up to 4 metres above the ground. In the case of gigantic jets like the Airbus A380, passengers have to ascend two levels. It would require very high stairs. And families with children, elderly and infirm passengers would find it much harder to board the plane. Not to mention the protection against wind and weather.
The principle of the passenger boarding bridge is simple: as a rule, part of the system is firmly anchored to the airport building. Another part is flexibly mounted on bearings in order to be able to dock to the various aircraft types. So it is important to compensate for differences in the height of the aircraft door as well as different aircraft lengths and widths. For this purpose, a gangway usually consists of several tubes that can telescope in and move apart and one or more lifting units. This telescopic bridge is the most flexible model of the passenger bridge. Less flexible designs are often only suitable for certain aircraft types, which limits the flexibility of airport operators.
The aerobridge is moved by means of electric motors. They need power and data cables for control. The movements of the individual elements are not very fast. Nevertheless, the cables must be protected against damage. Since they are usually outside the gangway, they must defy wind and weather.
As the downtimes of the aircraft is getting shorter and shorter and the passenger board bridges are supposed to work reliably, the mechanical movement has to run smoothly. A stoppage of a passenger boarding bridge can mean an immediate financial loss for the airport operator, the airline and also for the passengers who want to fly comfortably and safely on time.
The high reliability of the products speaks in favour of the use of igus® products in the passenger boarding bridge. The movements of the cables in the gangway can be guided safely with igus® e-chain systems®. The strokes are mostly horizontal movements in the telescope tunnels and vertical in the lifting units. The e-chains® have a long service life, so that high downtimes can be accounted for. They can be installed in a space-saving manner, so that no cables hang down and visually impair the look. All required energy can be supplied with e-chains®, such as power and control cables, hydraulics, pneumatics, etc.
Rotary motione-chain systems® as Reverse Bend Radius solution2
Stroke movemente-chain systems® - "Zig-zag" installation type3
Stroke movemente-chain systems® - "Hanging" installation type45
Cable protection in several axese-chain systems® guide and protect in three-dimensionally moving applications
Product Manager for e-chain systems® ASEAN
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