De Dion Tube Information

A de Dion tube is an automobile suspension technology. It is a sophisticated form of non-independent suspension and is a considerable improvement over the alternative swing axle and Hotchkiss drive types. A de Dion suspension uses universal joints at both the wheel hubs and differential, and uses a solid tubular beam to hold the opposite wheels in parallel. Unlike an anti-roll bar, a de Dion tube is not directly connected to the chassis nor is it intended to flex. In suspension geometry it is close to the trailing beam suspension seen on many front wheel drive cars, but without the torsional flexibility of that suspension.

History

The de Dion tube was named after Comte Jules-Albert de Dion, founder of French automobile manufacturer De Dion-Bouton. The tube, however, was invented around 1894 by co-founder Charles Trépardoux for use on the company's steam tricycles.^[1]

Advantages and disadvantages

The benefits of a de Dion suspension include: ^[2]

1. Reduced unsprung weight compared to the Hotchkiss drive since the differential is connected to the chassis.
2. Unlike a fully independent suspension there are no camber changes on suspension unloading (or rebound). Fixing the camber of both wheels at 0° assists in obtaining good traction from wide tires and also tends to reduce wheel hop under high power operations compared to an independent suspension.

There are costs, however:

1. A pair of CV or universal joints are required for each wheel, adding complexity and weight.
2. If coil springs are used then a lateral location link (usually either a Panhard rod or Watt's linkage), plus additional torque links on each side (five link suspension) or a combination of lower trailing links and an upper transverse wishbone are required. None of these additional links are required if leaf springs are used.
3. Sympathetic camber changes on opposite wheels are seen on single-wheel suspension compression. This is not important for operation on improved surfaces but is more critical for rough road or off road use.
4. Compared to a fully independent rear suspension the ability to refine the dynamic response of the vehicle is somewhat limited.^{[citation needed]}

Use in production cars

Older cars

In addition the original Mazda Cosmo, Alfa Romeo Alfetta, GTV6, Giulietta, Alfa 6, 90, 75/Milano, Lancia Aurelia (fourth series onwards), first and second generation Prince Gloria, Lancia Flaminia, Volvo 300-series, Rover P6 and Dodge Caravan & Grand Caravan (all wheel drive version from 1991-2004) are examples of production vehicles using this suspension. Some of the largest Opels, such as the Opel Diplomat "B" of 1969, also used this suspension. All Aston Martins from 1967 to 1989.

Recent cars

The Smart Fortwo and Smart Roadster micro-compact cars produced by DaimlerChrysler, Mitsubishi i kei car produced by Mitsubishi Motors and the Caterham 7 (a development of the Lotus Seven after Lotus sold the design rights to Caterham Cars), are the only cars currently in production that utilize this arrangement, as well as the products of some kit car companies. A recent vehicle to use this suspension coupled with leaf springs was the Ford Ranger EV.

References

1. ^ Georgano, p. 27.
2. ^ http://www.carbibles.com/suspension_bible.html

Sources

• Georgano, G. N. (1990). Cars: Early and Vintage, 1886-1930. London: Grange-Universal. (reprints AB Nordbok 1985 edition).

Categories: Automotive suspension technologies | Vehicle technology

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