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Fairey Aviation Company

The Fairey Aviation Company Limited was a British aircraft manufacturer of the first half of the 20th century based in Hayes in Middlesex and Heaton Chapel and RAF Ringway in Cheshire that designed important military aircraft, including the Fairey III family, the Swordfish, Firefly, and Gannet. It had a strong presence in the supply of naval aircraft, and also built bombers for the RAF.

Industry

1915

1960 (aircraft manufacturing)

Defunct

  • Avions Fairey
  • Fairey Aviation of Canada
  • Fairey Aviation Company of Australasia
  • Fairey Air Surveys

After World War II the company diversified into mechanical engineering and boat-building. The aircraft manufacturing arm was taken over by Westland Aircraft in 1960. Following a series of mergers and takeovers, the principal successor businesses to the company became FBM Babcock Marine Ltd, Spectris plc, and WFEL (formerly Williams Fairey Engineering Limited), the latter manufacturing portable bridges.

Ltd, Heston, Hydraulic power controls and filters for aircraft; sold in 1999 to a management buyout, the name changed to Claverham Ltd, bought in 2001 by Hamilton Sundstrand.

Fairey Hydraulics

Fairey Engineering Ltd, Stockport, General, and nuclear engineering;

Fairey Nuclear Ltd, Heston, Nuclear components and light engineering; see also

Dungeness nuclear power station

Fairey Industrial Products Ltd, Heston, Management company;

Fairey Filtration Ltd, Heston, Industrial filters;

Fairey Winches Ltd, Tavistock, Vehicle overdrives, winches, and hubs;

Jerguson Tress Gauge and Valve Co Ltd, Newcastle, Liquid Level indicators;

The Tress Engineering Co Ltd, Newcastle, Petrochemical valves;

Fairey Marine Holdings Ltd, Hamble, Management company;

Fairey Marine (East Cowes) Ltd, East Cowes, Ship, and boat building;

Fairey Exhibitions Ltd, Hamble, Exhibition stand contractors;

Fairey Marine Ltd, Hamble, Boatbuilding and repair;

Fairey Yacht Harbours Ltd, Hamble, Boat handling, berthing, and storage;

Fairey Surveys Ltd, Maidenhead, Aerial and geophysical survey and mapping;

Fairey Surveys (Scotland) Ltd, Livingston, Aerial and geophysical survey and mapping;

Fairey Developments Ltd, Heston, Management company:

Fairey Surveys (Scotland), Livingston, Aerial and geophysical survey and mapping.

Aero Surveys, Vancouver International Airport, Canada. This company was equipped to handle processing and mapping. Aircraft included two and one P-38. Operated in partnership with Fairchild Aerial Surveys, Inc.[12]

Ansons

Air Survey Company of India, Airport, Calcutta. This branch was fully equipped for processing and mapping. Aircraft included a DC-3 and three DH Rapides (known in 1946 as the Indian Air Survey & Transport Limited).

Dum Dum

Air Survey Company of Pakistan, Dunolly Road, Karachi, 2. This was an office only and no aircraft or ground equipment were permanently based there.

Air Survey Company of Rhodesia, Salisbury, Southern Rhodesia. Fully equipped for processing and mapping. An Anson or a from the UK fleet was available for operations.

Dove

Engineering[edit]

Heaton Chapel[edit]

The Fairey factory at Heaton Chapel, Stockport can trace its roots back to when Crossley Bros. Ltd having had by the end of 1916 supplied large numbers of tenders and aero engines to the Royal Flying Corps acquired premises at High Lane, Heaton Chapel to expand production. In 1917, following the Government's decision to build three National Aircraft Factories was taken, Crossley Motors Ltd was formed to manage National Aircraft Factory No.2 as it was known. The factory continued to produce aircraft until November 1918. After the First World War the site switched to vehicle production. The factory was taken over by Willys-Knight and Overland Motors for the manufacture of cars and commercial vehicles and retained by them until 30 November 1934 when it was acquired by Fairey. In 1935 the Fairey company received a substantial order for Hendon night bombers and established production lines at the Heaton Chapel factory. The production facilities at Heaton Chapel were incorporated as the Stockport Aviation Company Limited on 11 February 1936 and the Company took a site at Ringway (now Manchester Airport), where test flights were carried out.


After the end of aircraft production the Heaton Chapel works became Fairey Engineering Ltd and began production of medium and heavy engineering including portable bridges for military and emergency services use, notably the Medium Girder Bridge. Its bridges are in service with the British Army, U.S. Army and many other NATO forces. Fairey Engineering Ltd also made Nuclear Reactor cores and fuelling machines for Dungeness B and Trawsfynydd.


The company became Williams Fairey Engineering in 1986, and was then taken over by the Kidde portion of the American United Technologies Corporation. in 2000, and became now known as WFEL Ltd. In 2006 the Manchester Evening News reported that private equity investors Dunedin Capital Partners backed a management buy-out of WFEL from UTC which employs 160 people at its factory on Crossley Road, Heaton Chapel.

Aircraft[edit]

Fairey aircraft[edit]

Year of first flight in brackets

Fairey Felix

Fairey Prince (V-12)

Prince – 16-cylinder 1,500 hp (1,100 kW)

Fairey Prince (H-16)

– 2 x 12 cylinders (two engines with one propshaft passing through the other) 2,250 hp.[17][18][19] The P-24 flew in 1939 but was cancelled during the war.

Fairey Monarch

Fairey imported 50 Curtiss built D-12 engines in 1926, renaming them the Fairey Felix.[16]

Missiles and drones[edit]

Fairey's interest in missile production had been kept separate from the Fairey Aviation Co Ltd and its subsequent absorption into the Westland Group in 1960. Production was therefore invested in Fairey Engineering Ltd but by 1962 this had been transformed into a 50/50 joint venture with the British Aircraft Corporation (Holdings) Ltd known as BAC (AT) LTD, with offices at 100 Pall Mall, London SW1 and a share capital of £100. This was separate to the BAC Guided Weapons division.


The Fairey company was also involved in the early development of pilotless aircraft which led to the development of radio controlled pilotless target aircraft in Britain and the United States in the 1930s. In 1931, the Fairey "Queen" radio-controlled target was developed, building a batch of three. The Queen was a modified Fairey IIIF floatplane, (a catapult launched aircraft which was used for reconnaissance by the Royal Navy). Apart from installing radio gear the Queen also had some aerodynamic modifications to improve stability, however the first couple of pilotless flights came to quick endings as the drones crashed as soon as they left the catapult launcher on HMS Valiant.


In 1960, Fairey announced an agreement between Fairey Engineering Ltd and the Del Mar Engineering Laboratories, Los Angeles, California, to distribute a range of subsonic and supersonic towed target systems (RADOP) for air-to-air and surface-to-air guided weapon training in Europe, Africa, the Middle East, the Commonwealth and the UK.


The parent Fairey Company and its Australian subsidiary were heavily involved guided weapon development. The Weapon Division of Fairey Engineering Ltd was responsible in the UK for the Jindivik[20] Mk 2B Pilotless target aircraft. This had a Bristol Siddeley Viper ASV.8 turbojet, giving a speed of 600 mph (970 km/h) and an operational ceiling in excess of 50,000 ft.


The "Fairey V.T.O" was a vertical take-off delta wing aircraft was designed to explore the possibility of making an aircraft launched from short ramps with low acceleration. Shown for the first time at the Society of British Aircraft Constructors (SBAC) Show in 1952, the Fairey VTO Project was used to test the basic configuration of future research craft. Each wing had a large aileron and the vertical fin carried a large rudder. The V.T.O. obtained 900 lbf (4.0 kN) thrust from each Beta nozzle and, for launching, used two solid-fuel boosters of 600 lbf (2.7 kN) each, bringing the total thrust up to 3,000 lbf (13 kN)—obviously more than the total weight. The Beta I rocket had two jets, one of which could be swivelled laterally and the other vertically, according to signals from an autopilot. The resulting mean thrust line could thus be varied to maintain controlled flight at low airspeeds. Fairey carried out many successful tests, the first of which was from a ship in Cardigan Bay in 1949.


Fairey Rocket Test Vehicle 1, formerly known as LOPGAP ("Liquid Oxygen and Petrol Guided Anti-Aircraft Projectile"). The original design can be traced back to the 1944 Royal Navy specification for a guided anti-aircraft missile known as LOPGAP.[21] In 1947, the Royal Aircraft Establishment took over development work and the missile was renamed RTV1. Several versions of the basic RTV1 were developed.


The Fairey Aviation Company of Australasia Pty Ltd was awarded a contract to build 40 RTV1e rockets. The first of which were completed in early 1954. Components were built by the Royal Australian Navy Torpedo Establishment (hydraulic servo units), EMI (guidance receivers and amplifiers) and the Commonwealth Aircraft Corporation (magnesium castings). Some parts were also imported from the UK. Assembly was undertaken at Salisbury, South Australia by the Special Projects Division of Fairey. Test firings took place in 1955–56 but by this time the RTV1 was considered obsolete RTV1e was the beam guidance test vehicle. Radar guidance was provided by a radar unit which projected a narrow beam. Different versions of the test vehicle were created and each was concerned with a different aspect of control, guidance, propulsion and aerodynamics of the complete rocket. The RTV 1e was a two-stage liquid fuel rocket used for research and development into problems associated with beam riding missiles. It was fired at an angle of 35 degrees with a maximum altitude of about 12,000 feet. The vehicle was launched by seven solid booster rockets which had a burn time of four seconds, after which the liquid fuel sustainer motor took over.


At the 1954 Farnborough Airshow, Fairey Australia displayed a massive missile resembling the RTV-1. The base was formed by a booster unit about 6 ft high and 20 inches in diameter, stabilised by four large and four small fins and housing seven five-inch motors. The main body was about 17 ft in length with a diameter of 10 in. The body was fitted with four wings and four small control vanes.


Fairey Australia also displayed an aerodynamic test vehicle, described as a "three-inch winged round". This was a simple projectile, without guidance, to aid investigations into the properties of various wing/body assemblies at high supersonic speeds. The example shown was about 6 ft long, and had a finely finished, white-painted body apparently made of seamless tube. About two-thirds of the way back from the nose was fitted a laminated-wood wing of about two feet span, positioned across a diameter of the body, with a root chord of some 18 inches and a quarter-chord sweep of about 50 degrees.


In April 1947 Fairey released details of its first guided missile[22] It was an anti-aircraft weapon designed for use in the Pacific war but not completed in time for use by the British Army (who originally ordered it) or for the Royal Navy. The Ministry of Supply requested that the work be completed, and the Stooge was the outcome. It had a length of 7 ft 5.5 in (2.273 m), a span of 6 ft 10 in (2.08 m), a body diameter of 17 in, and weighing 738 lb (335 kg), with a warhead. Propulsion was by four 75 lbf (330 N)-thrust solid-fuel main rockets, but initially four additional booster rockets delivering further 5,600 lb thrust accelerated the Stooge off its 10 ft (3.0 m) long launching ramp. Unlike later designs, the Stooge was intended for high subsonic speeds—and limited ranges. The Stooge consisted of two-stage propulsion, an autopilot, radio control equipment with additional ground unit, and a warhead. The Stooge required a launching ramp and transport. The missile was extensively tested at Woomera[23]


The Malkara missile was designed in Australia by British and Australian companies. It was a heavy wire-guided missile for deployment from vehicles, light naval craft and fixed emplacements. This weapon replaced the Fairey "Orange William" project for the MoS which would later lead to Swingfire. Fairey Engineering had the sales agency for all countries outside the US, and was also appointed by the Australian Department of Supply's to assist in the introduction of the Malkara to operational service and to design and produce modifications. The missile was in service with the Royal Armoured Corps, deployed on a special vehicle—the Humber Hornet, made by Wharton Engineering—which carried two rounds on launchers and two rounds stowed. The Hornet could be air-dropped, had a crew of three. For training purposes the Malkara Mk I was used, with a range of some 2,000 m (6,600 ft). The operational weapon was the Malkara Mk 1 A, which had a different type of tracking flare, thinner guidance wire, and other improvements to give approximately double the range of Mk 1.


The Fairey Fireflash was an early air-to-air weapon guided by radar beam riding. Developed as "Blue Sky" – a derated version of the Red Hawk missile. It was in service briefly before being replaced by the de Havilland Firestreak.


Green Cheese was a tactical nuclear anti-ship missile for use with the Gannet. Problems with Gannet led to continued development with the Blackburn Buccaneer but it was cancelled.

Fairey Band[edit]

In 1937, workers at the Fairey aviation plant formed a brass band. For some sixty years the band was associated with the company and its successors, although the Fairey Band has now had to turn to external sources for financial backing. Throughout its history though the band has retained its identity with the company under guises as the Fairey Aviation Works Band, Williams Fairey Band and later Fairey (FP Music) Band. The band has recently returned to roots, rebranding as just The Fairey Band. The Fairey Band has won many national and international titles throughout its proud history.

Aerospace industry in the United Kingdom

WFEL

Fairey Surveys

Fireflash programme Archived 27 May 2010 at the Wayback Machine

[1]

Hearst Magazines (April 1936). . Popular Mechanics. Hearst Magazines. pp. 506–507.

"Doughnut Boat on Plane Saves Flyers in Sea"