Fairey Ultra-light Helicopter

Last updated

Ultra-light Helicopter
Fairey Ultra-light.jpg
The Ultra-light Helicopter in flight
RoleLight Army helicopter
National originUnited Kingdom
Manufacturer Fairey Aviation Company
First flight14 August 1955
Retired1959
StatusRetired
Primary userThe manufacturer
Number built6

The Fairey Ultra-light Helicopter was a small British military helicopter intended to be used for reconnaissance and casualty evacuation, designed by the Fairey Aviation Company.

Contents

The Ultra-light had been conceived of as a straightforward, low cost and easily transportable helicopter. It lacked any tail rotor due to the decision to propel the rotorcraft using unconventional tip jets positioned at the ends of the rotor blades. It had been selected amongst various competing projects to meet a Ministry of Supply requirement for a lightweight helicopter to be used by the British Army for aerial observation purposes. Early trials with prototypes proved promising, however political factors ultimately undermined the project.

The Ultra-light found itself a casualty of the British defence economies of the later 1950s, as well as of intense competition from rival firms who had their own light rotorcraft projects, in particular the Saunders-Roe Skeeter. While Fairey attempted to proceed with development of the Ultra-light independently, promoting the type towards the civil market and achieving appropriate type certification for such use, no orders were ultimately received. The firm shelved the project, choosing to concentrate on the larger Fairey Rotodyne instead, which shared some design features.

Development

Origins

During the early 1950s, the British Army was strongly interested in the potential use of compact helicopters in the observation and aerial observation roles. [1] In 1953 a requirement was issued by the British Ministry of Supply for a low-cost two-seat helicopter, which would be suitable for reconnaissance, casualty evacuation and training duties. [2] This specification was considered to be quite demanding, calling for it to be capable of high speeds and rates of climb even under tropical conditions. The rotorcraft was also required to be transportable on the back of a standard Army three-ton truck, constricting the dimensions of the prospective vehicle considerably. [2]

Further requirements for the prospective light helicopter included a flight endurance of one hour along with the potential for carrying light cargoes such as fuel and tools, as well as stretcher-bound wounded troops. [1] An initial request for a rear-facing observer's seat was present early on, but was discarded in later revisions. At this time, newly developed gas turbines were beginning to appeal both to helicopter designers and to prospective operators, the British Army made the use of such an engine one of its requirements. [1]

There was also an interest in producing rotorcraft that made use of tip-driven rotors, which had the advantage of avoiding the torque that would be produced by rotors driven by a conventional transmission as well as the consequential requirement to incorporate a complicated and vulnerable torque-compensating tail rotor. [2] Some contemporary designs, such as the Sud-Ouest Djinn, bled high pressure air from the engine directly to the tips; Fairey had been conducting work into a scheme where this air was mixed with fuel at the tips and burned. Such methods had already been flight tested on the Fairey Jet Gyrodyne, and Fairey decided that the technique would be suitable for a compact rotorcraft. [2] [3]

Competition and selection

A diverse range of entries were submitted in response to the issuing of the requirement; amongst these were Fairey Aviation with its Ultra-light Helicopter harnessing Tip jet propulsion, Saunders-Roe with a smaller version of the Saunders-Roe Skeeter, the Bristol Aeroplane Company's proposed 190, a ducted rotor proposal by Percival Aircraft, Short Brothers proposed the larger Short SB.8, and a ram jet-powered proposal by Austrian helicopter pioneer Raoul Hafner. [4]

A suitable powerplant for a compact rotorcraft had been identified in the form of the Turbomeca Palouste turbojet engine, for which arrangements had already been independently reached with British firm Blackburn to produce the engine under licence from Turbomeca. [5] Fairey adopted the Palouste engine, which provided compressed air through the hollow rotor blades to the tip jets. According to aviation author Derek Wood: "the Fairy Ultra Light was a masterpiece of simplicity. It dispensed with a tail rotor since the tip-driven main rotor was torqueless and it eliminated the shafts, gears, and clutches associated with piston-engined designs". [6]

In response to the detailed design submission that Fairey had produced for their proposal, the Ministry decided to award the firm a contract to produce a total of four development aircraft for demonstration and flight testing purposes; the company later decided to construct a further two more rotorcraft as a private venture. [2]

Design

Fairey Ultra-light Helicopter, preserved and on display at the Midland Air Museum, September 2011 Fairy Ultra-light (6262722737).jpg
Fairey Ultra-light Helicopter, preserved and on display at the Midland Air Museum, September 2011

The Fairey Ultra-light Helicopter emerged as a compact side-by-side two-seater, powered by a single Turbomeca Palouste turbojet engine, which was produced under licence by Blackburn. [2] It was mounted semi-externally at floor level, behind the seats. The engine was furnished with an oversized compressor for the purpose of providing air to the tip-burners at 40 psi (275 kPa); this arrangement eliminated the necessity for a tail rotor in order to counteract torque, which was not a factor with the tip jet configuration adopted. [2] The Palouste engine was by far the most costly element of the Ultra-light, reportedly comprising in excess of 50 per cent of the craft's purchase cost. [6]

The Ultra-light was constructed around a light alloy box that placed the rubber-mounted rotor pylon at the centre of the upper surface; a tip-driven twin-blade teetering rotor unit was set upon the rotor pylon. [2] The rotor diameter was 28 feet 3.5 inches (8.623 m), while the overall weight of the Ultra-light was only 1,800 lb (820 kg). Fuel was housed within a single crash-proof fuel tank set within the box. [6]

The alloy box structure was attached to and carried a box girder tail boom on which the engine, a horizontal tailplane and vertical stabilizer and rudder surfaces were mounted. [2] The rudder projected beneath the boom into the jet efflux and provided effective yaw control even when the aircraft was stationary. The undercarriage was a simple pair of tubular steel skids directly attached to the box structure, porter bars could be attached to the skids to allow the rotorcraft to be carried by hand. [2] [6]

Operational history

On 14 August 1955, the first prototype Ultra-light helicopter conducted its maiden flight. It made an public appearance at the September Society of British Aircraft Constructors (SBAC) show at Farnborough that year. [2] During the Farnborough demonstration, the Ultra-light performed a demonstration of its ability to operate from the back of a three-ton truck, one of the high-profile requirements that had been issued by the British Army. [6]

After its completion, several modifications were made to the first prototype. This machine originally had only the rudder at the end of the boom, but a horizontal tailplane bearing end-plate fins was later added. A less obvious change was the addition of hydraulically-assisted cyclic pitch control. The second prototype had a modified cabin which allowed for stretcher-borne casualties to be carried. A pair of Ultra-lights were equipped with a slightly larger diameter rotor (32 ft/9.75 m rather than 28 ft/8.6 m) for the purpose of improving performance in situations where compactness was not at a premium. [2] It had been recognised that there was a need for the rotor blades to have a longer lifespan. [6]

There were many demonstrations of the Ultra-light's capabilities performed at airshows, during military exercises and at sea, including a deployment aboard the U-class destroyer HMS Grenville. [2] However, the British Army had become more focused on the Saunders-Roe Skeeter and addressing that rotorcraft's shortcomings, such as ground resonance and engine issues. [7] According to Wood, the rival Skeeter had made a good early impression in Germany and had attracted the offer of a military order for the type from the German government, but that this was on the condition that the Skeeter was in turn adopted by the British armed forces as well. Thus, the decision was taken in Whitehall to concentrate on the Skeeter, effectively abandoning the Ministry requirement that the Ultra-light was being developed towards meeting. [7]

Having become aware that the British Army was no longer likely to order the Ultra-light, Fairey instead promoted the type for its potential use within the Royal Navy. [7] While some trials were conducted, including one prototype being successfully tested for suitability on board an aircraft carrier, the Navy appeared to lack enthusiasm for the Ultra-light and it became clear that the Ministry would not be providing any further funding for its development. Recognising that the prospects for a military order from the British services to have become very limited, the company decided to re-orientate the Ultra-light to conform with the preferences and needs of civil operators instead. [7]

Fairey proceeded to develop a dedicated model of the Ultra-light for the civil market, specifically designed to be capable of conducting functions such as communications activities and crop spraying. [7] Accordingly, a civil registered example of the type was exhibited at the 1957 Paris Air Show at Paris Le Bourget Airport. During 1958, civil airworthiness certification was achieved for the Ultra-light, effectively clearing the type for use by civilian operators. [2]

Despite considerable interest from abroad, particularly from customers in the US and Canada, no orders for the type were received and only the six development Ultra-lights were constructed before the programme was ultimately abandoned in 1959. [2] A major factor in Fairey deciding to terminate work on the programme, aside from the lack of orders, was the limited resources available to the company, and the increasing levels of work on the then-promising Fairey Rotodyne, a much larger compound gyrocopter that also made use of tip jets and some of features of the Ultra-light. [7]

The preserved sixth Fairey Ultra-light Helicopter, on static display at the Midland Air Museum in 2015. Fairey UL Helicopter G-APJJ BAG 18.06.15R edited-2.jpg
The preserved sixth Fairey Ultra-light Helicopter, on static display at the Midland Air Museum in 2015.

Surviving aircraft

The second prototype of the Ultra-light, which featured a modified nose so that it could accommodate a stretcher for its intended use as a casualty evacuation helicopter. In 1977, it was rediscovered in a derelict condition on a farm near Harlow and was promptly transferred to The Helicopter Museum, being moved to Weston-super-Mare in May 1979 and put into storage prior to its restoration. A set of original rotor blades, an engine and the original tail unit were acquired. It was restored and placed on public display in July 2021. [8]

The sixth prototype to be completed, G-APJJ, was tested by the Royal Aircraft Establishment at Thurleigh, Bedford and by the Royal Navy, before being retired. After periods of lengthy storage it was given for exhibition at the Midland Air Museum at Coventry Airport located at Baginton, to the south of the city. [9] [10]

Specifications

Data fromFairey Aircraft since 1915, [11] Jane's All the World's Aircraft 1958-59 [12]

General characteristics

Performance

See also

Aircraft of comparable role, configuration, and era

Related lists

Related Research Articles

<span class="mw-page-title-main">Fairey Rotodyne</span> 1950s British compound gyroplane

The Fairey Rotodyne was a 1950s British compound gyroplane designed and built by Fairey Aviation and intended for commercial and military uses. A development of the earlier Fairey Jet Gyrodyne, which had established a world helicopter speed record, the Rotodyne featured a tip-jet-powered rotor that burned a mixture of fuel and compressed air bled from two wing-mounted Napier Eland turboprops. The rotor was driven for vertical takeoffs, landings and hovering, as well as low-speed translational flight, but autorotated during cruise flight with all engine power applied to two propellers.

<span class="mw-page-title-main">Aérospatiale SA 321 Super Frelon</span> Type of aircraft

The AérospatialeSA 321 Super Frelon is a three-engined heavy transport helicopter produced by aerospace manufacturer Sud Aviation of France. It held the distinction of being the most powerful helicopter to be built in Europe at one point, as well as being the world's fastest helicopter.

<span class="mw-page-title-main">Tip jet</span> Jet nozzle at the tip of some helicopter rotor blades

A tip jet is a jet nozzle at the tip of some helicopter rotor blades, used to spin the rotor, much like a Catherine wheel firework. Tip jets replace the normal shaft drive and have the advantage of placing no torque on the airframe, thus not requiring the presence of a tail rotor. Some simple monocopters are composed of nothing but a single blade with a tip rocket.

<span class="mw-page-title-main">Saunders-Roe Skeeter</span> Type of aircraft

The Saunders-Roe Skeeter is a two-seat training and scout helicopter that was developed and produced by British manufacturer Saunders-Roe ("Saro") of Cowes and Southampton, in the United Kingdom.

<span class="mw-page-title-main">Gyrodyne</span> Type of VTOL aircraft

A gyrodyne is a type of VTOL aircraft with a helicopter rotor-like system that is driven by its engine for takeoff and landing only, and includes one or more conventional propeller or jet engines to provide forward thrust during cruising flight. During forward flight the rotor is unpowered and free-spinning, like an autogyro, and lift is provided by a combination of the rotor and conventional wings. The gyrodyne is one of a number of similar concepts which attempt to combine helicopter-like low-speed performance with conventional fixed-wing high-speeds, including tiltrotors and tiltwings.

<span class="mw-page-title-main">Rotorcraft</span> Heavier-than-air aircraft which generates lift over rotating wings

A rotorcraft or rotary-wing aircraft is a heavier-than-air aircraft with rotary wings or rotor blades, which generate lift by rotating around a vertical mast. Several rotor blades mounted on a single mast are referred to as a rotor. The International Civil Aviation Organization (ICAO) defines a rotorcraft as "supported in flight by the reactions of the air on one or more rotors".

<span class="mw-page-title-main">Fairey Jet Gyrodyne</span> Type of aircraft

The Fairey Jet Gyrodyne is a British experimental compound gyroplane built by the Fairey Aviation Company that incorporated helicopter, gyrodyne and autogyro characteristics. The Jet Gyrodyne was the subject of a Ministry of Supply (MoS) research contract to gather data for the follow-up design, the Rotodyne.

<span class="mw-page-title-main">Westland Westminster</span> Type of aircraft

The Westland Westminster was a British helicopter of the 1950s from Westland Aircraft. A large cargo design, it was powered by two turboshaft engines driving a single, five-bladed rotor. Initially unclad, the all-metal airframe was later enclosed in a fabric covering. Designed and built as a private venture without government assistance, it was cancelled when Westland took over rival helicopter producers and their more advanced projects.

<span class="mw-page-title-main">Aérospatiale SA 360 Dauphin</span> Type of aircraft

The Aérospatiale SA 360 Dauphin was a single-engine French utility helicopter developed and produced by aerospace manufacturer Aérospatiale.

<span class="mw-page-title-main">Cierva W.11 Air Horse</span> Type of aircraft

The Cierva W.11 Air Horse was a helicopter developed by the Cierva Autogiro Company in the United Kingdom during the mid-1940s. The largest helicopter in the world at the time of its debut, the Air Horse was unusual for using three rotors mounted on outriggers, and driven by a single engine mounted inside the fuselage.

<span class="mw-page-title-main">Fairey FB-1 Gyrodyne</span> Type of aircraft

The Fairey FB-1 Gyrodyne is an experimental British rotorcraft that used single lifting rotor and a tractor propeller mounted on the tip of the starboard stub wing to provide both propulsion and anti-torque reaction.

The Cierva Autogiro Company was a British firm established in 1926 to develop the autogyro. The company was set up to further the designs of Juan de la Cierva, a Spanish engineer and pilot, with the financial backing of James George Weir, a Scottish industrialist and aviator.

<span class="mw-page-title-main">SNCASO SO.1221 Djinn</span> Type of aircraft

The Sud-Ouest SO.1221 Djinn is a French two-seat light helicopter designed and manufactured by aircraft manufacturer Sud-Ouest (SNCASO), which was later merged into Sud Aviation. It was the first production French helicopter, as well as being one of the first practical European helicopters to be produced. The Djinn was also the first rotorcraft to harness tip-jet propulsion to enter production.

<span class="mw-page-title-main">American Helicopter XH-26 Jet Jeep</span> Type of aircraft

The American Helicopter XH-26 Jet Jeep was an experimental tip jet helicopter developed in 1951 by the American Helicopter Company to meet a United States Army and Air Force (USAF) request for a collapsible and air-droppable observation helicopter.

<span class="mw-page-title-main">Saro P.531</span> Utility helicopter

The Saro P.531 is a British all-metal five-seat helicopter designed and built by Saunders-Roe Limited (Saro). The P.531 was a larger development of the two-seat Saro Skeeter to use turbine power and formed the basis of the military Westland Scout and Westland Wasp helicopters.

<span class="mw-page-title-main">Turbomeca Palouste</span> 1950s French gas generator aircraft engine

The Turbomeca Palouste is a French gas turbine engine, first run in 1952. Designed purely as a compressed air generator, the Palouste was mainly used as a ground-based aircraft engine starter unit. Other uses included rotor tip propulsion for helicopters.

<span class="mw-page-title-main">Doblhoff WNF 342</span> Type of aircraft

The Doblhoff/WNF 342 was an early experimental tip jet helicopter designed and produced by Wiener-Neustädter Flugzeugwerke. It was the first helicopter to take off and land using tip jets to drive the rotor.

<span class="mw-page-title-main">Dornier Do 32</span> Type of aircraft

The Dornier Do 32E was a simple, collapsible one-man helicopter, designed for military use in Germany in the 1960s. Despite initial hopes of large orders and some proposed civilian roles, only three flew.

The Saunders Helicogyre was a 1920s experimental helicopter designed by Vittorio Isacco and built by S.E. Saunders Limited for the British Air Ministry.

<span class="mw-page-title-main">Sud-Ouest Ariel</span> Type of aircraft

The Sud-Ouest Ariel is a French two-seat light helicopter designed and built by Sud-Ouest. The helicopter rotors were driven by compressed-air jets at the end of each blade.

References

Citations

  1. 1 2 3 Wood 1975 , p. 111
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Taylor 1974 , pp. 398–404
  3. Wood 1975 , pp. 111–112, 114
  4. Wood 1975 , pp. 111–112
  5. Wood 1975 , pp. 113–114
  6. 1 2 3 4 5 6 Wood 1975 , p. 114
  7. 1 2 3 4 5 6 Wood 1975 , p. 115
  8. "Fairey Ultra-Light". The Helicopter Museum: The Collection. Retrieved 8 October 2021.
  9. Ellis 2012 , p. 257
  10. "Aircraft Listing." Midland Air Museum, Retrieved: 5 February 2017.
  11. Taylor 1974, p. 404
  12. Bridgman 1958, pp. 79–80

Bibliography

  • Bridgman, Leonard (1958). Jane's All the World's Aircraft 1958–59. London: Sampson Low, Marston & Company, Ltd.
  • Ellis, Ken (2012). Wrecks & Relics 23rd Edition. Manchester: Crecy Publishing. ISBN   978-0-85979-172-4.
  • Taylor, H.O. (1974). Fairey Aircraft since 1915. London: Putnam Publishing. ISBN   0-370-00065-X.
  • Wood, Derek (1975). Project Cancelled. Macdonald and Jane's Publishers. ISBN   0-356-08109-5.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.