An autogyro is a type of
rotorcraftinvented by Juan de la Ciervain 1919, making its first successful flight on January 9, 1923at Cuatro Vientos Airfield in Madrid. [http://www.vectorsite.net/avheli_1.html#m4 Vector Flight] ] Similar to helicopters, autogyros use a rotor to develop lift. While a helicopter's rotor is rotated by an engine during normal flight, the rotor of an autogyro is driven by aerodynamic forces in autorotation. An engine-powered propeller, similar to that of a fixed-wing aircraft, provides thrustfor the autogyro.
Autogyros are also known as "gyroplanes", "gyrocopters", or "rotaplanes". The term "Autogiro" was a
trademarkof the Cierva Autogiro Companyand the term "Gyrocopter" was originally a trademark of Bensen Aircraft.
An autogyro is characterised by a free-spinning rotor that turns due to passage of air upwards through the rotor. The vertical component of the total aerodynamic reaction of the rotor gives lift for the vehicle, and sustains the autogyro in the air. A separate propeller provides forward thrust and can be placed in a tractor configuration, with the engine and propeller at the front of the fuselage (e.g.,
Cierva), or pusher configuration with the engine and propeller at the rear of the fuselage (e.g., Bensen).
Whereas a helicopter works by forcing the rotor blades through the air, pushing air downwards, the autogyro rotor blade generates lift in the same way as a
glider's wing by changing the angle of the air as it moves upwards and backwards relative to the rotor blade. The free-spinning blades turn by autorotation; the rotor blades are angled so that they not only give lift, but the angle of the blades causes the lift to accelerate the blades' rotation rate, until the rotor turns at a stable speed with the drag and thrust forces in balance. Pitch control of the autogyro is by tilting the rotor fore and aft; roll control is by tilting the rotor laterally (side to side). Three designs to affect the tilt of the rotor are a tilting hub (Cierva), swashplate ( Air & Space 18A), or servo-flaps (Kaman SAVER). A rudderprovides yaw control. On pusher configuration autogyros, the rudder is typically placed in the propeller slipstreamto maximize yaw control at low airspeed (cf. McCulloch J-2).
There are three primary flight controls: control stick, rudder pedals, and
throttle. The control stick is termed "cyclic" and tilts the rotor in the desired direction to provide pitch and roll control. The rudder pedals provide yaw control, and the throttle controls engine power.
Secondary flight controls include the rotor transmission clutch, also known as a pre-rotator, which when engaged drives the rotor to start it spinning before takeoff, and
collective pitchto reduce blade pitch before driving the rotor. Collective pitch controls are not usually fitted to autogyros, but can be found on the Air & Space 18Aand McCulloch J-2and are capable of near VTOLperformance. Unlike a helicopter, autogyros without collective pitch need a runway to takeoff; however they are capable of landing with a very short, or zero ground roll. [cite web | url= http://youtube.com/watch?v=ZIRZvEvAWV4 | work= YouTube| title= Video of Autogyro perfect landing with zero ground roll | accessdate=2007-11-13 ]
Pusher vs tractor configuration
Modern autogyros typically follow one of two basic configurations.
The most common design is the pusher configuration, where the engine and propeller are located behind the pilot and rotor mast, such as in the Bensen "Gyrocopter". It was developed by Igor Bensen in the decades following World War II, and came into widespread use shortly afterward.
Less common today is the tractor configuration. In this version the engine and propeller are located at the front of the aircraft, ahead of the pilot and rotor mast. This was the primary configuration in early autogyros, but became less common after the advent of the helicopter. It has enjoyed a revival since the mid 1970s however, in the " [http://www.littlewingautogyro.com/history.html Little Wing] " autogyro concept.
Juan de la Ciervawas a Spanish engineerand aeronautical enthusiast. In 1921, he participated in a design competition to develop a bomber for the Spanish military. Cierva designed a three-engined aircraft, but during an early test flight, the bomber stalled and crashed. Cierva was troubled by the stall phenomenon and vowed to develop an aircraft that could fly safely at low airspeeds. The result was the first successful rotorcraft, which he named "Autogiro" in 1923. Cierva's autogyro used an airplane fuselage with a forward-mounted propeller and engine, a rotor mounted on a mast, and a horizontal and vertical stabilizer.
Cierva C.6replica in Cuatro Vientos Air Museum, Madrid, Spain]
Cierva's first three designs (C.1, C.2, and C.3) were unstable due to aerodynamic and structural deficiencies in their rotors. His fourth design, the C.4, made the first successful flight of an autogyro on
9 January 1923, piloted by Alejandro Gomez Spencer at Cuatro Vientos airfield in Madrid, Spain. Cierva had fitted the rotor of the C.4 with flapping hinges to attach each rotor blade to the hub. The flapping hinges allowed each rotor blade to flap, or move up and down, to compensate for dissymmetry of lift, the difference in lift produced between the right and left sides of the rotor as the autogyro moves forward. Three days later, the engine failed shortly after takeoff and the aircraft descended slowly and steeply to a safe landing, validating Cierva's efforts to produce an aircraft that could be flown safely at low airspeeds.
Cierva developed his C.6 model with the assistance of Spain's Military Aviation establishment, having expended all his funds on development and construction of the first five prototypes. The C.6 first flew in February 1925, including a flight of 10.5 km (7 miles) from Cuatro Vientos airfield to
Getafeairfield in about 8 minutes, a significant accomplishment for any rotorcraft of the time. Shortly after Cierva's success with the C.6, Cierva accepted an offer from Scottish industrialist James G. Weir to establish the Cierva Autogiro Company in England, following a demonstration of the C.6 before the British Air Ministryat RAE Farnborough, on 20 October 1925. Britain had become the world center of autogyro development.
A crash in February 1927, due to blade root failure, led to an improvement in rotor hub design. A drag hinge was added in conjunction with the flapping hinge to allow each blade to move fore and aft and relieve in-plane stresses, generated as a byproduct of the flapping motion. This development led to the Cierva C.8, which, on
18 September 1928, made the first rotorcraft crossing of the English Channel followed by a tour of Europe.
The U.S. industrialist
Harold Frederick Pitcairn, upon learning of the successful flights of the autogyro, had previously visited Cierva in Spain; in 1928, he visited Cierva again, in England, after taking a C.8 L.IV test flight piloted by Arthur H.C.A. Rawson. Being particularly impressed with the autogyro's safe vertical descent capability, Pitcairn purchased a C.8 L.IV with a Wright Whirlwind engine. Arriving in the United States on 11 December 1928accompanied by Rawson, this autogyro was redesignated C.8W. Subsequently, production of autogyros was licensed to a number of manufacturers, including the Pitcairn Autogiro Companyin the U.S. and Focke-Wulfof Germany.
Development of the autogyro continued in search for a means to accelerate the rotor prior to takeoff (called prerotating). Rotor drives initially took the form of a rope wrapped around the rotor axle and then pulled by a team of men to accelerate the rotor - this was followed by a long taxi to bring the rotor up to speed sufficient for takeoff. The next innovation was flaps on the tail to redirect the propeller slipstream into the rotor while on the ground. This design was first tested on a C.19 in 1929. Efforts in 1930 had shown that development of a light and efficient mechanical transmission was not a trivial undertaking, but the Pitcairn-Cierva Autogiro Company, of
Willow Grove, Pennsylvania, finally solved the problem with a transmission driven by the engine in 1932.
Cierva's early autogyros were fitted with fixed rotor hubs, small fixed wings, and control surfaces like those of a fixed wing aircraft. At low airspeeds, the control surfaces became ineffective and could readily lead to loss of control, particularly during landing. In response, Cierva developed a direct control rotor hub, which could be tilted in any direction by the pilot. Cierva's direct control was first developed on the Cierva C.19 Mk. V and saw production on the Cierva C.30 series of 1934.
When improvements in helicopters made them practical, autogyros became largely neglected. They were, however, used in the 1930s by major
newspapers, and by the US Postal Servicefor mail service between the Camden, NJ airport (USA) and the top of the post office building in downtown Philadelphia, Pennsylvania(USA). Citation|last=Pulle|first=Matt|title=Blade Runner|newspaper=Dallas Observer|publication-place=Dallas, Tx|volume=Vol. 27|issue= Issue 27|date= 5 July 2007|year=2007|month=July|pages=pp. 19–27|url=http://www.dallasobserver.com/2007-07-05/news/blade-runner/]
World War II
In World War II, Germany pioneered a very small gyroglider "rotor-kite", the
Focke-Achgelis Fa 330"Bachstelze" (Water-wagtail), towed by U-boats to provide aerial surveillance.
The Japanese Army developed the
Kayaba Ka-1Autogyro for reconnaissance, artillery-spotting, and anti-submarine uses. The Ka-1 was based on an American design first imported to Japan in 1938. The craft was initially developed for use as an observation platform and for artillery spotting duties. The Army liked the craft's short take-off span, and especially its low maintenance requirements. In 1941 production began, with the machines assigned to artillery units for spotting the fall of shells. These carried two crewmen: a pilot and a spotter.
Later, the Japanese Army commissioned two small aircraft carriers intended for coastal antisubmarine (ASW) duties. The spotter's position on the Ka-1 was modified in order to carry one small depth charge. Ka-1 ASW autogyros operated from shore bases as well as the two small carriers. They appear to have been responsible for at least one submarine sinking.
The autogyro was used to calibrate the coastal radar stations during and after the Battle of Britain. [cite web | url= http://books.google.com/books?id=cBbnDiTUx6YC&pg=PA139&lpg=PA139&dq=autogyro+radar+callibration&source=web&ots=99bkskqycn&sig=ZVtEhhuxjpmGEaV-wWZxYpZz9rw | pages= pp. 139 | title= Radar Development to 1945 | publisher = IEE | last= Burns | first= R.W. | year= 1988 | isbn= 0863411398]
The autogyro was resurrected after World War II when Dr.
Igor Bensen, a Russian immigrant, saw a captured German U-Boat's Fa 330 gyroglider and was fascinated by its characteristics. At work he was tasked with the analysis of the British " Rotachute" gyro glider designed by expatriate Austrian Raoul Hafner. This led him to adapt the design for his own purposes and eventually market the B-7. Bensen submitted an improved version, the Bensen B-8M, for testing to the United States Air Force, which designated it the X-25. The B-8M was designed to use surplus McCulloch engines used on flying unmanned target drones. Ken Wallisdeveloped a miniature autogyro craft, the "Wallis" autogyro, in England in the 1960s, and autogyros built similar to Wallis' design appeared for a number of years. Ken Wallis' designs have been used in various scenarios including military training, police reconnaissance, and in another case a search for the Loch Ness Monster.
Three different autogyro designs have been certified by the
FAAfor commercial production: the Umbaugh U-18/ Air & Space 18Aof 1965, the Avian 2-180 of 1967, and the McCulloch J-2of 1972. All have been commercial failures, for various reasons.
The basic Bensen "Gyrocopter" design is a simple frame of square aluminium or galvanized steel tubing, reinforced with triangles of lighter tubing. It is arranged so that the stress falls on the tubes, or special fittings, not the bolts. A front-to-back keel mounts a steerable nosewheel, seat, engine, and a vertical stabilizer. Outlying mainwheels are mounted on an axle. Some versions may mount seaplane-style floats for water operations.Bensen-type autogyros use a
pusher configurationfor simplicity and to increase visibility for the pilot. Power can be supplied by a variety of engines. McCulloch drone engines, Rotax marine engines, Subaru automobile engines, and other designs have been used in Bensen-type designs.
The rotor is mounted atop the vertical mast. The rotor system of all Bensen-type autogyros is of a two-blade teetering design. There are some disadvantages associated with this rotor design, but the simplicity of the rotor design lends itself to ease of assembly and maintenance and is one of the reasons for its popularity. Aircraft-quality birch was specified in early Bensen designs, and a wood/steel composite is used in the world speed record holding Wallis design. Gyroplane rotor blades are made from other materials such as
aluminiumand GRP-based composite blades.
Due to Bensen's pioneering of the concept and the popularity of his design, "Gyrocopter" has become a
genericized trademarkfor pusher configuration autogyros.
Certification by national aviation authorities
A certificated autogyro must meet mandated stability and control criteria; in the
United Statesthese are set forth in " Federal Aviation RegulationsPart 27: Airworthiness Standards: Normal Category Rotorcraft". [cite web | url= http://www.airweb.faa.gov/Regulatory_and_Guidance_Library/rgFAR.nsf/MainFrame?OpenFrameSet | work= Federal Aviation Administration| title= Current FAR by Part | accessdate= 2007-11-13] The U.S. Federal Aviation Administrationissues a Standard Airworthiness Certificateto qualified autogyros. Amateur-built or kit-built aircraft are operated under a Special Airworthiness Certificatein the Experimental category. [cite web | url= http://www.faa.gov/aircraft/air_cert/airworthiness_certification/sp_awcert/experiment/expt_operating/ | work= Federal Aviation Administration| title= Experimental Category Operating Amateur-built, Kit-built, or Light-sport Aircraft | accessdate= 2007-11-13] Per FAR 1.1, the FAA uses the term "gyroplane" for all autogyros, regardless of the type of Airworthiness Certificate.
Some autogyros, such as the Rotorsport MT03, [cite web | url= http://www.caa.co.uk/docs/1419/srg_acp_TADSGyroplane_BG01_Issue1.pdf | format= PDF | publisher=
United Kingdom Civil Aviation Authority| work= GYROPLANE TYPE APPROVAL DATA SHEET (TADS) | title= TYPE: RotorSport UK MT-03 | accessdate= 2007-11-13 ] have type approval by the United Kingdom Civil Aviation Authority(CAA) under British Civil Airworthiness Requirements CAP643 Section T.cite web | url= http://www.caa.co.uk/docs/33/CAP643.PDF | format= PDF | publisher= United Kingdom Civil Aviation Authority| title= CAP 643 British Civil Airworthiness Requirements Section T Light Gyroplanes | accessdate= 2007-11-13 ] Others operate under a permit to fly issued by the Popular Flying Associationndash similar to the US experimental aircraft certification. However, the CAA's assertion that autogyros have a poor safety record means that permit to fly will only be granted to existing types of autogyro. All new types of autogyro must be submitted for full type approval under CAP643 Section T.cite web | url= http://www.caa.co.uk/docs/33/CAP733.PDF | format= PDF | publisher= United Kingdom Civil Aviation Authority| title= CAP 733 Permit to Fly Aircraft | pages= pp. 20, Chapter 3, Section 5 | accessdate= 2007-11-13 ]
In 2005, the CAA issued a mandatory permit directive (MPD) which restricted operations for single seat autogryos, and were subsequently integrated into CAP643 Issue 3 published on
12 August 2005.The restrictions are concerned with the offset between the centre of gravityand thrust line, and apply to all aircraft unless evidence is presented to the CAA that the CG/Thrust Line offset less than 2 inches (5 cm) in either direction. The restrictions are summarised as follows:
*Aircraft with a cockpit/
nacellemay only be operated by pilots with more than 50 hours solo flight experience following the issue of their licence.
*Open frame aircraft are restricted to a minimum speed of 30 mph (26 knots), except in the flare.
*All aircraft are restricted to a
Vneof 70 mph (61 knots)
*Flight is not permitted when surface winds exceed 17 mph (15 knots) or if the gust spread exceeds 12 mph (10 knots)
*Flight is not permitted in moderate, severe or extreme turbulence and airspeed must be reduced to 63 mph (55 knots) if turbulence is encountered mid-flight.
Amelia Earhartflew a Pitcairn PCA-2to a women's world altitude record of 18,415 ft (5,613 m). [cite web | url= http://www.ameliaearhart.com/about/achievements.html | title= Achievements | work= Official Amelia Earhart website | accessdate= 2008-01-09]
Ken Wallishas held most of the autogyro world records during his autogyro flying career. These include the speed record of 186 km/h (111.7 mph), and the straight-line distance record of 869.23 km (543.27 miles). On 16 November 2002, Wallis increased the speed record to 207.7 km/h (129.1 mph)ndash and simultaneously set another world record as the oldest pilot to set a world record. [cite web | url= http://records.fai.org/pilot.asp?from=rotorcraft&id=335 | title= List of records established by Kenneth H. Wallis | work= Fédération Aéronautique Internationale| accessdate= 2007-10-07]
The autogyro is the last remaining type of aircraft which has not yet been used to circumnavigate the globe.
Expedition Global Eaglewas the first attempt in history to circumnavigatethe globe using an autogyro. [http://www.bbc.co.uk/nottingham/features/2004/04/magnigyro_record_attempt.shtml BBC News] You only live twice? A Nottingham man is part of a team hoping to circumnavigate the globe in one of James Bond's gadgets. Quote: "The autogyro is the only aircraft never to circumnavigate the globe. But now a team of soldiers are bidding to do just that and make a piece of aviation history."] The expedition set the record for the longest flight over water by an autogyro during the segment from Muscat, Omanto Karachi. [ [http://www.yorkshirepost.co.uk/news/The-Eagle-has-landed-.875323.jp The Yorkshire Post] The Eagle has landed – but pilot vows to try again Quote: "509-mile flight from Muscat to Karachi, the longest over water by an autogyro" 22 October 2004] The attempt was finally abandoned due to bad weather after a trip totalling convert|7500|mi|km.
In February 2003, a year before the circumnavigation attempt, the "Global Eagle" piloted by
Warrant OfficerBarry Jones also broke the world range record by flying non-stop from Culdrosein Cornwallto Wick in Scotland, a total of 580 miles (928 km) breaking the old record held by Wing Commander Ken Wallis. [http://web.archive.org/web/20040711002725/www.globaleagle.co.uk/gyroplane_story.htm Story of the record] ]
Andrew Keech made a transcontinental flight from
Kitty Hawk, North Carolinato San Diego, Californiain October 2003 and set 3 world records for speed over a recognized course. The 3 records were verified by tower personnel or by official observers of the United States' National Aeronautic Association(NAA). On 9 February 2006, he broke two of his world records and set a record for distance, ratified by the Fédération Aéronautique Internationale(FAI); Speed over a closed circuit of convert|500|km|mi|0|abbr=on without payload: convert|168.29|km/h|mph|2|abbr=on, speed over a closed circuit of convert|1000|km|mi|0|abbr=on without payload: convert|165.07|km/h|mph|2|abbr=on, and distance over a closed circuit without landing: convert|1019.09|km|mi|2|abbr=on. [cite web | url= http://records.fai.org/pilot.asp?from=rotorcraft&id=4246 | publisher= Fédération Aéronautique Internationale| title= Aviation and Space World Records | accessdate= 2008-01-09]
Autogyros in popular culture
An indication of the pre-war popularity of the autogyro, its subsequent decline and later rise of interest can be inferred from its appearances in the films and comics of the day. Notable appearances include:
* In the film "International House" (1933), W.C. Field's character flies around the globe in his autogyro The Spirit of Brooklyn.
* In the film "
It Happened One Night" (1934), the groom and pilot King Westley arrives dramatically for the wedding in an autogyro.
* An autogyro appears (in what is obviously stock footage) in Hitchock's 1935 film "
The 39 Steps" in a scene in Scotland where the hero is escaping the police.
* In the classic science fiction film of H.G. Wells' "
Things to Come" (1936), the heroes of the story arrive dramatically at the Space Gun in an art deco-style autogyro, to mitigate the destruction of the Space Gun by extremists, which will carry two people to the Moon in the year 2036. The autogyro in the film was designed by celebrated art deco designer Norman Bel Geddes, who assisted production designer William Cameron Menzieson the look of the world of tomorrow.
* "Little Nellie", the autogyro featured in the 1967
James Bondfilm "You Only Live Twice", was a Ken WallisWA-116 design and was piloted by Wallis in its film scenes. In the film, it was shipped by Q in four suitcases and assembled prior to use. [cite web | url= http://imdb.com/title/tt0062512/trivia | work= Internet Movie Database| title= Trivia: You Only Live Twice | accessdate= 2007-10-07] [cite web | url= http://imdb.com/name/nm0909250/ | work= Internet Movie Database| title= K.H. Wallis | accessdate= 2007-10-07]
* An autogyro was heavily featured in the second "Mad Max (The Road Warrior)" film, released in 1981, appearing in several scenes with its pilot, the Gyro Captain, as a major character. The pilot used in the flying sequences was Gerry Goodwin, doubling for the actor,
Bruce Spence. [cite web | url= http://imdb.com/name/nm0329462/ | work= Internet Movie Database| title= Gerry Goodwin | accessdate= 2007-10-07]
* Fictional comic characters
Doc Savage, [cite web | url= http://mysite.verizon.net/pulps.fan/Art-Nocturne/gyro.htm | title= Doc piloting his gyro | work= Art Nocturne | accessdate= 2007-10-07] The Shadow, and Tom Strongall featured autogyros in their 1930s and 1940s pulp magazine adventures. [cite web | url= http://www.leguy.de/comics/abc/tomstrong/10.html | title= Tom Strong and his Phantom Autogyro | work= America's Best Comics | accessdate=2007-10-07]
Batman's first aircraft was an autogyro. The "Batgyro" was introduced in " Detective Comics" #31 in September 1939. It only made three appearances before being replaced by a more conventional fixed wing aircraft.
List of autogyro models
Piasecki Aircraft Corporation
West Wind Aviation and Services
18. [http://www.microlight.in/index_files/little_genie.htm West Wind Aviation and Services - Manufacturer of Super Genie Autogyro in India]
* [http://www.gyroplane.aero Air & Space 18A gyroplane.]
* [http://www.asra.org.au/ Australian Sport Rotorcraft Association]
* [http://www.gyroplanes.org/ British Rotorcraft Association]
* [http://www.microlight.in/index_files/little_genie.htm 'Super Genie' First Autogyro manufactured in India]
* [http://www.thegyrobee.com/ The Gyrobee] , and ultralight autogyro
* [http://www.GyroPilot.co.uk GyroPilot] , for people interested in autogyros
* [http://www.gyroplanepassion.com Gyroplane Passion] All things relating to gyroplanes
* [http://www.jefflewis.net/autogyros.html Jeff Lewis' in-depth history of the Autogyro]
* [http://www.pra.org/ Popular Rotorcraft Association] (United States)
* [http://gyrowiki.com/ gyrowiki.com] Gyroplane Articles and resources.
* [http://www.youtube.com/watch?v=PbalOh4smnM Golden Age Pioneers: Juan de la Cierva] (Inventor of the autogyro), courtesy of [http://www.youtube.com/user/Bomberguy Bomberguy]
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Look at other dictionaries:
autogyro — n. an aircraft that is supported in flight by unpowered rotating horizontal wings (or blades); forward propulsion is provided by a conventional propeller. Syn: autogiro, gryoplane [WordNet 1.5] … The Collaborative International Dictionary of English
autogyro — [ôt΄ə jī′rō] n. pl. autogyros alt. sp. of AUTOGIRO * * * au·to·gy·ro (ô tō jīʹrō) n. Variant of autogiro. * * * … Universalium
autogyro — [ôt΄ə jī′rō] n. pl. autogyros alt. sp. of AUTOGIRO … English World dictionary
Autogyro — Moderner Leicht Tragschrauber Tragschrauber Bensen B 8 Ein Tragschrauber, auch Autogiro oder Gyrocopter genannt, ist ein Drehflügler und ähnelt in seiner Funktionsweise einem … Deutsch Wikipedia
autogyro — var. of AUTOGIRO. * * * noun an aircraft that is supported in flight by unpowered rotating horizontal wings (or blades); forward propulsion is provided by a conventional propeller • Syn: ↑autogiro, ↑gyroplane • Hypernyms: ↑heavier than air craft… … Useful english dictionary
autogyro — noun see autogiro … New Collegiate Dictionary
autogyro — noun alternative spelling of autogiro … Wiktionary
autogyro — n. aircraft that is supported in flight by an unpowered rotary wing or rotor and is moved through the air by either an engine powered propeller or a tow cable … English contemporary dictionary
autogyro — Juan de la Cierva … Inventors, Inventions
autogyro — au·to·gy·ro … English syllables