A blind flying panel is an instrumentation sub-panel located in the cockpit of an aircraft. Its purpose was to present the necessary information to pilots for flying under instrument flight rules (IFR); it would be used in circumstances where visual flight rules (VFR) would not be desirable or possible, such as during night time or unclear weather conditions. The blind flying panel was prevalently used during the Second World War upon a wide range of aircraft, from fighters such as the Supermarine Spitfire, to bombers and trainers alike. In the postwar era, it decreased in relevance following the increasing prevalence of onboard radar sets and other newer navigational aids.
A blind flying panel has typically, but not necessarily, features an arrangement of six key flight instruments: an airspeed indicator (ASI), an artificial horizon, an altimeter, a rate of climb indicator, a directional gyro, and a turn and slip indicator. [1] [2] All of the blind flying panel's instruments were either pitot/static-powered or vacuum powered, the latter being driven via a vacuum pump fitted onto (at least one of) the aircraft's engines, thus making the instruments independent of the electrical supply. However, some aircraft featured dimmable electrical lighting for illuminating these instruments. [3] The blind flying panel was usually mounted away from the main panel, typically on an arrangement of three rubber suspension points.
Around the time of the Second World War, the blind flying panel was a standardised piece of cockpit equipment that was installed on the majority of aircraft operated by the Royal Air Force, to the point where it was considered to be a part of the typical British cockpit. [4] [5] The majority of fighter aircraft that participated in the Battle of Britain, including the Hawker Hurricane and Supermarine Spitfire, were so provisioned, as were numerous other aircraft, even trainers. [6] [7] Biplanes in British service, such as the Fairey Swordfish torpedo bomber, often featured blind instrument panels on later-built examples despite otherwise relatively spartan cockpits become commonplace. [8]
In contrast, the Messerschmitt Bf 109 operated by the Luftwaffe were not furnished with blind flying panels. [9] The United States developed its own standardised blind flying panel during the conflict, fitting it to several fighters, such as the Grumman F6F Hellcat. [10] However, numerous American fighters, typically those built early on in the conflict such as the Bell P-39 Airacobra and the Curtiss P-40 Warhawk, lacked any such provision. [11] Numerous early postwar era aircraft, such as the de Havilland Comet, the world's first jetliner, had blind flying panels amongst their navigational instrumentation. [12]
During the 1950s, some analysts concluded that the standard blind flying panel was increasingly unable to meet special operational requirements, such as the need for pilots to view radar imagery, particularly in the night fighter role in which the panel had been once prolifically used in. [4] Around this time, research was underway to developing methods of flying under IFR conditions without relying on gyroscopes or some of the traditional means of instrumentation. [13] [14] Nonetheless, the blind flying panel continued to be used by operational aircraft for quite some time, In addition to being subject to numerous studies and comparisons drawn with newer instrumentation designs. [15] [16]
In aviation, instrument flight rules (IFR) is one of two sets of regulations governing all aspects of civil aviation aircraft operations; the other is visual flight rules (VFR).
Flight instruments are the instruments in the cockpit of an aircraft that provide the pilot with data about the flight situation of that aircraft, such as altitude, airspeed, vertical speed, heading and much more other crucial information in flight. They improve safety by allowing the pilot to fly the aircraft in level flight, and make turns, without a reference outside the aircraft such as the horizon. Visual flight rules (VFR) require an airspeed indicator, an altimeter, and a compass or other suitable magnetic direction indicator. Instrument flight rules (IFR) additionally require a gyroscopic pitch-bank, direction and rate of turn indicator, plus a slip-skid indicator, adjustable altimeter, and a clock. Flight into instrument meteorological conditions (IMC) require radio navigation instruments for precise takeoffs and landings.
A cockpit or flight deck is the area, usually near the front of an aircraft or spacecraft, from which a pilot controls the aircraft.
The Fairey Swordfish is a biplane torpedo bomber, designed by the Fairey Aviation Company. Originating in the early 1930s, the Swordfish, nicknamed "Stringbag", was principally operated by the Fleet Air Arm of the Royal Navy. It was also used by the Royal Air Force (RAF), as well as several overseas operators, including the Royal Canadian Air Force (RCAF) and the Royal Netherlands Navy. It was initially operated primarily as a fleet attack aircraft. During its later years, the Swordfish was increasingly used as an anti-submarine and training platform. The type was in frontline service throughout the Second World War.
Aviation is the design, development, production, operation, and use of aircraft, especially heavier-than-air aircraft. Articles related to aviation include:
The attitude indicator (AI), formerly known as the gyro horizon or artificial horizon, is a flight instrument that informs the pilot of the aircraft orientation relative to Earth's horizon, and gives an immediate indication of the smallest orientation change. The miniature aircraft and horizon bar mimic the relationship of the aircraft relative to the actual horizon. It is a primary instrument for flight in instrument meteorological conditions.
The Fairey Fulmar is a British carrier-borne reconnaissance aircraft/fighter aircraft which was developed and manufactured by aircraft company Fairey Aviation. It was named after the northern fulmar, a seabird native to the British Isles. The Fulmar served with the Royal Navy's Fleet Air Arm (FAA) during the Second World War.
The Blackburn B-24 Skua was a carrier-based low-wing, two-seater, single-radial engine aircraft by the British aviation company Blackburn Aircraft. It was the first Royal Navy carrier-borne all-metal cantilever monoplane aircraft, as well as the first dive bomber in Fleet Air Arm (FAA) service. The aircraft took its name from the sea bird which 'divebombs' any potential predators that come too close to its nest.
An instrument landing system localizer, or simply localizer, is a system of horizontal guidance in the instrument landing system, which is used to guide aircraft along the axis of the runway.
The British Supermarine Spitfire was facing several challenges by mid-1942. The debut of the formidable Focke-Wulf Fw 190 in late 1941 had caused problems for RAF fighter squadrons flying the latest Spitfire Mk Vb. Rolls-Royce engineers were already working on a new version of the Merlin incorporating a two-stage supercharger; the combination of the improved Merlin and the Spitfire Mk Vc airframe in a "stop-gap" design allowed the RAF to combat the Fw 190 on equal terms.
The Garmin G1000 is an electronic flight instrument system (EFIS) typically composed of two display units, one serving as a primary flight display, and one as a multi-function display. Manufactured by Garmin Aviation, it serves as a replacement for most conventional flight instruments and avionics. Introduced in June 2004, the system has since become one of the most popular integrated glass cockpit solutions for general aviation and business aircraft.
Lionel Peter Twiss was a British test pilot who holds the World Air Speed Record as the first man to fly a jet aircraft faster than 1,000 mph.
The horizontal situation indicator is an aircraft flight instrument normally mounted below the artificial horizon in place of a conventional heading indicator. It combines a heading indicator with a VHF omnidirectional range-instrument landing system (VOR-ILS) display. This reduces pilot workload by lessening the number of elements in the pilot's instrument scan to the six basic flight instruments. Among other advantages, the HSI offers freedom from the confusion of reverse sensing on an instrument landing system localizer back course approach. As long as the needle is set to the localizer front course, the instrument will indicate whether to fly left or right, in either direction of travel.
Jeffrey Kindersley Quill, was a British test pilot who served on secondment with the Royal Air Force and Royal Naval Volunteer Reserve during the Second World War. He was also the second man to fly the Supermarine Spitfire after Vickers Aviation's chief test pilot, Joseph "Mutt" Summers. After succeeding Summers as Vickers' chief test pilot, Quill test-flew every mark of Spitfire. Quill's work on the aircraft aided its development from a promising but untried prototype to become, with the Hawker Hurricane, an instrument of the Royal Air Force's victory in the Battle of Britain. The Spitfire later played a leading role in gaining Allied air superiority over Europe. Quill later wrote two books about the Spitfire.
Reid and Sigrist was an English engineering company based at New Malden in Surrey. It later acquired sites at Desford and Braunstone in Leicestershire. Initially it developed and manufactured aircraft instrumentation and pilot selection aids but later diversified into flying training and aircraft design. During World War II the company was part of the Civilian Repair Organisation repairing, rebuilding and converting warplanes at the Desford site. Post-war, it continued to manufacture aviation instruments and guidance systems but also diversified further to produce cameras and optical instruments. In 1954, the company was purchased and taken over by the Decca Record Company.
The Supermarine Spitfire is a British single-seat fighter aircraft used by the Royal Air Force and other Allied countries before, during, and after World War II. Many variants of the Spitfire were built, from the Mk 1 to the Rolls-Royce Griffon-engined Mk 24 using several wing configurations and guns. It was the only British fighter produced continuously throughout the war. The Spitfire remains popular among enthusiasts; around 70 remain airworthy, and many more are static exhibits in aviation museums throughout the world.
759 Naval Air Squadron was a Naval Air Squadron of the Royal Navy's Fleet Air Arm. It was created on November 1st, 1939 and was disbanded on December 24, 1969. It was initially intended as a Telegraphist Air Gunner Training Squadron but became a Fighter School and Pool Squadron in 1939, at RNAS Eastleigh. It operated out of RNAS Yeovilton from 1940 to 1946, as part of the Naval Air Fighter School. In 1943 a detachment operated out of RNAS Angle, working with 794 NAS and known as the Naval Air Firing Unit. It was again the Naval Air Fighter School upon reformation in 1951 and disbandment in 1954, firstly at RNAS Culdrose and then moving to RNAS Lossiemouth, in 1953. The squadron reformed again, this time at RNAS Brawdy in 1963, as the Naval Advanced Flying Training School, before finally disbanding in 1969.
790 Naval Air Squadron was a Naval Air Squadron of the Royal Navy's Fleet Air Arm.
791 Naval Air Squadron was a Naval Air Squadron of the Royal Navy's Fleet Air Arm. It formed as an Air Target Towing Unit, at RNAS Arbroath, in Scotland, in October 1940. It operated various types of aircraft for target towing duties, used to support air gunnery training and practice. The squadron disbanded in December 1944, at Arbroath. It reformed at RNAS Trincomalee, in Sri Lanka, in November 1945, as a Fleet Requirements Unit. The squadron moved to RNAS Sembawang, in Singapore, in December 1945, ferried via HMS Smiter. It also operated a Communications Flight and an Air-Sea Rescue Flight, as well as undertaking anti Mosquito spraying duties. 791 NAS disbanded at Sembawang in June 1947.