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In creating his famous tower, Gustave Eiffel demonstrated both his engineering genius and a firm grasp of the emerging aesthetic of the industrial age. Otis engineers had to be inventive as well, finding new ways to design the tower’s lift systems – not just once, but twice, a century apart.
The French first turned to Otis before the tower opened in 1889. They needed lifts for the north and south curved pillars to carry visitors to the second level – without interfering with the tower’s iconic silhouette.
Constructing lifts to the first level was relatively straightforward: The pillars’ legs were wide and straight enough for a conventional system. Installing lifts to the second level was a different matter, given the sharp curvature involved. No French company was willing to take on the complex job.
Otis engineers designed two huge hydraulic cable lifts that ran on rail tracks. The big, beautiful machines became tourist attractions themselves.
In the 1980s, the French again turned to Otis, this time to re-engineer the tower’s entire lift system as part of a major renovation.
The lifts to the top presented the biggest challenge. Otis engineers used computer modelling to analyse the many difficulties, including tower sway and winds that can reach 62 miles per hour.
They came up with a radical new system: Two Duolift™ lifts using the longest open-air run ever covered by a lift – 160 metres. Each lift consists of two cabs, which act as each other’s counterweight: When one cab goes up, the other comes down.
Galvanised cables and anti-icing devices on the cars allow the lifts to operate year-round, even under severe weather conditions.
Otis modernised the Duolift lifts in 2001.
Metres per second
Modernist architect Emilio Duhart worked with Otis to design the Duolift cabs.
The brightly coloured cabs – two yellow, two red – stand out against the tower’s bronze-painted ironwork “like pebbles in a stream,” Duhart said, in keeping with his conception of the tower as an amusement park.
Engineers battled the laws of equilibrium in designing the lift to reach the panoramic restaurant on the second level.
To conquer the variable slope of the south pillar, they devised a system based on Alpine cable-car techniques. They suspended the cab from a bracket, with auxiliary guides to suppress lateral movement and ensure a smooth ride. An 18-kilowatt motor on the restaurant’s roof provides power.
When Eiffel’s plans were unveiled, prominent Parisian artists and intellectuals petitioned to halt the project, comparing the tower’s design to a gigantic factory chimney that would be a blot on the cityscape.
Eiffel’s response: “Do people think that because we are engineers, beauty plays no part in what we build?”
July 1, 1887
March 31, 1889