Gull-wing door is an automotive industry term describing car doors that are hinged at the roof rather than the side, as pioneered by the 1952 Mercedes-Benz 300SL race car (W194) and its road-legal version (W198) introduced in 1954.
Opening upwards, the doors evoke the image of a seagull's wings. In French they are portes papillon (butterfly doors). The papillon door, slightly different in its architecture from a gullwing door – designed by Jean Bugatti in 1939 Type 64, fourteen years before Mercedes-Benz produced its similar, famous 300SL gullwing door – is a precursor, but is often overlooked when discussing "Gull-wing" design. Conventional car doors are typically hinged at the front-facing edge of the door and the door swings outward in a horizontal plane.
Apart from the Mercedes-Benz 300SL of the mid-1950s and the experimental Mercedes-Benz C111 of the early 1970s, the best-known examples of road-cars with gull-wing doors are the Bricklin SV-1 from the 1970s and the DeLorean DMC-12 from the 1980s. Gull-wing doors have also been used in aircraft designs, such as the four-seat single-engine Socata TB series built in France.
Despite the common misconception that the gull-wing doors are mere stylistic affectations, the design is a very practical one in a tight urban parking space. When properly designed and counterbalanced, they require little side-clearance to open (about 27.5 cm, or 11" in the DeLorean) and allow much better entrance/egress than conventional doors. The most obvious downside to having gull-wing doors is that, should the car roll over and come to rest on its roof, exit by the doors would be impossible, requiring a large windscreen opening to escape. The Mercedes SLS solved this problem by fitting explosive bolts in the hinges, that would blow up in the event that the car rolls over.
A Volvo concept car (Volvo YCC) that was designed by and for women had gull-wing doors as part of a design meant to be appealing from a woman's perspective. Gull-wing doors to make it easier to lift a bag to store it behind the drivers seat, increases visibility over the driver's shoulder, and makes it easier to get in and out of the vehicle.
The Tesla Model X, first introduced in 2015, has double hinged gull-wing doors (called falcon-wing doors by Tesla). The Model X has several design considerations to make the doors more practical. Being double hinged allows them to open with less clearance (horizontal and vertical) than would otherwise be required. The vehicle also has sensors to determine ceiling height and the presence of potential obstacles. The vehicle then determines how the hinges will operate to open the doors and avoid the obstacles, if possible.
Gull-wing doors have a somewhat questionable reputation because of early examples like the Mercedes and the Bricklin. The 300 SL needed the door design as its tubular frame race car chassis design had a very high door sill, which in combination with a low roof would make a standard door opening very low and small. The Mercedes engineers solved the problem by also opening a part of the roof. The Bricklin was a more conventionally sized door but the actuation system was problematic in day-to-day use and led to unreliable operation until an aftermarket air-door upgrade was installed in all Bricklins. In addition, there was some concern that in making the doors as light as possible they wouldn't provide adequate protection in side-impact accidents. There was, however, no indication that this concern was justified.[who?]
The DeLorean solved these problems by using a solid-steel torsion bar (supplied by Grumman Aircraft Engineering Corporation) to counterbalance a full-sized door and then used simple pneumatic struts similar to those found in hatchback cars to open the doors and damp their movement.
Other disadvantages of the system were not so easy to address. For example, the gull-wing design makes creating a convertible version of the car harder, as the hinges would be removed with the roof, and standard doors would be needed for the convertible. Mercedes did so when replacing the gullwing coupe altogether with the 300SL roadster in 1958. It was never a concern for DeLorean since no convertible version was ever planned.
It also makes sealing the car against water leaks and snow intrusion more difficult because of the shape and movement path of the door itself.
List of automobiles
The following is a (partial) list of production and kit automobiles with gull-wing doors:
- Autozam AZ-1 (Suzuki Cara)
- Bricklin SV-1
- Bristol Fighter
- DeLorean DMC-12
- De Tomaso Mangusta (engine compartment)
- Gumpert Apollo
- Hofstetter Turbo
- Isdera Commendatore 112i
- Melkus RS 1000
- Melkus RS 2000
- Mercedes-Benz 300SL
- Mercedes-Benz SLS AMG
- Pagani Huayra
- (NSU) Thurner RS
- Tesla Model X (rear passenger doors only)
- Quant E
- Quant F
- Bugatti atlantic type 64
Gullwing doors are common in kit cars and many were made that are not included on this list. They were almost always one of the most mechanically problematic parts of these vehicles.
- AMT Piranha
- Bradley GTII
- Dare DZ
- Eagle SS Mk1
- Elite Enterprises Laser 917, inspired by the Porsche 917
- Embeesea Charger
- Fiberfab Aztec 7, a loose replica of the Alfa Romeo Carabo concept car (which has scissor doors).
- Fiberfab Caribee/Banshee
- Innes Lee Scorpion K19
- Pelland Sports
- Replicar Cursor
- RPB GT
- Burton Car Company hardtop
- Siva S160 Spyder
|Wikimedia Commons has media related to Automobiles with gull-wing doors.|
- List of cars with unusual door designs
- Suicide doors
- Scissor doors
- Butterfly doors
- Sliding doors
- Canopy door
- Car door
- "Papillon and gull-wing door"
- "Socata Trinidad GT: A beautiful little French retractable with a certain je ne sais quoi", Plane & Pilot retrieved 3 August 2011
- Knut Grimsrud. "DeLorean Frequently Asked Questions - Technical Information". Dmcnews.com. Retrieved 2009-12-08.
- "Volvo Concept Car". Volvo Car France. Retrieved March 2, 2004.
- "Inside Tesla's freaky Falcon Wing doors".
- "Why Don't More Cars Have Gullwing Doors?". Popular Mechanics.
- "Bricklin Specifications". Saintjohn.nbcc.nb.ca. Retrieved 2011-11-26.