Jonathan Edward Caldwell (born March 24, 1883, date of death unknown) was a self-taught aeronautical engineer who designed a series of bizarre aircraft and started public companies in order to finance their construction. None of these was ever successful, and after his last known attempt in the later 1930s he disappeared, apparently to avoid securities fraud charges. His name was later connected with mythical German flying saucers, and he remains a fixture of the UFO genre.
Little of Caldwell's early life is known, and what has been documented was reconstructed from college records. He appears to have been born in Hensall, Ontario, Canada, the fifth son (and one of twelve children) of William Thomas Caldwell (1848–1930) and Sarah Alice Chamberlain (1852–1933). He emigrated to the United States in 1910, and attended Oregon State College, from 1912 to 1913, majoring in mechanical engineering. In the 1920s, according to statements he made later in life, he became interested in aviation and began to study the fundamentals of aerodynamics. [1]
In February 1923 Caldwell filed for a patent on a device he called the "cyclogyro". It consisted of an airplane fuselage with two paddle-wheel like attachments in place of the wings. The wheels were powered by an engine in the fuselage, spun to power the upper portion of the attachments forward – clockwise, as seen looking left from the cockpit. The wheels each featured four high aspect ratio airfoils, which were able to rotate around their horizontal axis in order to change their pitch.
By changing the pitch continually through the entire rotation, the lift of the airfoils could be tuned to produce thrust in any direction. For instance, to lift off vertically the airfoils were pitched to have a positive angle of attack only at the top of their rotation, just generating lift only at that point. In forward flight the angle at the top of the arc would be reduced to make the lift neutral, but they would retain their positive angle even through the forward part of the circle, producing forward thrust. By changing the angle in this fashion, the aircraft could be "lifted" in any direction, with differential thrust between the two "wings" allowing yaw to be applied.
Caldwell formed Gravity Aeroplane Company in Reno, Nevada (Caldwell was living in Santa Monica at the time) and issued stock in 1928. Their company stationery included an illustration showing the cyclogyro, a version with four airfoils per "wing", attached on the fuselage end to a large disk and the outer end to a cross-like support.
Caldwell then turned to an even more bizarre aircraft design, an ornithopter. The wings were equipped with flexible fabric valves which were supposed to open on the upstroke and close on the downstroke, allowing it to generate lift with no forward motion and thus provide VTOL service, like the cyclogyro.
Caldwell, now living in Denver filed a patent on his new design in December 1927, which was finally granted as US1730758 in October 1929. [2] In early 1928 he started another company in Nevada to raise funds to develop it, 'Gray Goose Airways', inc., issuing 10,000 shares of stock at ten cents per share, retaining a 51 percent interest. The funds were used to develop a human-powered prototype.
By 1931 there was still no working prototype, and Caldwell moved to Orangeburg, New York, and later to Madison, New Jersey. [3] A January 14, 1932 newsreel film shows the ornithopter being readied for a test. This was apparently attempted without success, by the otherwise unknown Emile Harrier. Additional funds were then raised by another stock issue in order to build a full-sized prototype at Teterboro Airport. He also apparently restarted his cyclogyro work, and an article appeared in one of the Popular Mechanics-like magazines showing the design equipped with a V-8 engine mounted in an odd twin-fuselage with the pilot and passengers below.
Before the ornithopter prototype could be completed, the New Jersey Assistant Attorney General charged Caldwell with fraud in September. In his notes, the Attorney, Robert Grossman, noted that "no one connected with the company possessed sufficient knowledge of aeronautics to build a practical ship." [1] Caldwell eventually reached an agreement that allowed him to continue construction of the ornithopter prototype until December, as long as no more shares of stock were sold in that time. Grossman also noted that Caldwell had begun work on yet another entirely new design, using a disk wing.
In December there was still no prototype, and Caldwell moved the company to New York. The New York Attorney General started questioning the business almost immediately.
In 1934 Caldwell moved again, this time to Washington, DC. In a filing with the Maryland Securities and Exchange Commission he described the company as working solely on a new type of autogyro, which he referred to as a "disk-rotor plane".
The design consisted of a fairly conventional autogyro layout, but the wing was disk-like instead of the more traditional helicopter-like bladed assembly. The disk had airfoils formed out of fabric on the inside of the rim, and four small solid surfaces on the outside. In forward motion the airstream blowing across the four small surfaces would spin the disk, which would provide lift from the fabric airfoils inside. On reaching cruising altitude, the disk would be braked to stop it spinning, and unbraked again for a near-vertical landing. The advantage to this arrangement was that there was no theoretical limit on forward speed, whereas a conventional autogyro cannot be stopped in flight, and has a limit when the speed of the rearward moving blade approaches the stall speed.
Unlike his previous attempts, the disk-rotor aircraft was actually completed between 1936 and 1938, and was issued a CAA experimental registration number NX99Y. In late 1937 or early 1938 a test flight was attempted with the company mechanic at the controls, Willard Driggers. According to later claims (see below), Driggers managed to get the aircraft airborne from the Benning Race Track, and in a panic cut power, causing the aircraft to crash-land, damaging the landing gear. Although damage was minor, Caldwell had apparently already lost interest in the design and did not repair it.
In 1939 Caldwell shut down Grey Goose and swapped shares once again, forming Rotor Planes, Inc. His latest design retained the disk-rotor from his earlier autogyro, but replaced the fuselage with a smaller disk in the center. According to some accounts, [4] around 1940 the Maryland securities commission also started examining Caldwell, who promptly disappeared, abandoning the broken disk-rotor and the partially completed rotorplane.
In May 1949, officers of the U.S. Air Force's Project Sign received a letter from a Gray Goose shareholder, who explained that the company had been building aircraft similar to the "flying saucers" which were then a popular topic in the press. This was during the UFO craze following Kenneth Arnold's reports of seeing UFOs over Mount Rainier and the Roswell Incident that followed. The Air Force had canvassed for reports of flying saucers, and the shareholder apparently felt that Caldwell's disk-rotor might explain them.
Tracking down the leads, the team, accompanied by the Maryland Police, visited an abandoned farm in Glen Burnie, Maryland (outside Baltimore), where the damaged remains of Caldwell's disk-rotor aircraft were discovered. They also tracked down Driggers, who told them the story of the attempted flight in 1937/8. The team reported that the prototypes could not be responsible for the "flying saucer" reports that were being received from all around the country. [5]
Photographs of the broken disk-rotor machine continue to appear in UFOs books to this day. They were often described as "crashed" flying saucers in earlier works, claiming it was one more example of the USAF being in possession of such vehicles. More recently they are normally connected with the claims that the Nazis had built working flying saucers late in the war, lumped together with other disk-shaped aircraft like the Avrocar, Sack_AS-6 and Vought V-173, in an effort to demonstrate that such aircraft were both possible and well-researched. [4]
In 1909/10, Caldwell married Olive E Davis. Caldwell emigrated to the United States in 1910. In 1930, Caldwell was living in Denver with his wife, Olive E Caldwell (48, born Wisconsin) and son Carl Davis Caldwell (July 17, 1917, Montana – November 27, 1993, Cupertino, California).
In 1954 J.E. Caldwell of Medicine Hat, Alberta was selling shares in Ornithopter Ltd. in the Kootenay region of British Columbia.
An aircraft is a vehicle that is able to fly by gaining support from the air. It counters the force of gravity by using either static lift or the dynamic lift of an airfoil, or, in a few cases, direct downward thrust from its engines. Common examples of aircraft include airplanes, helicopters, airships, gliders, paramotors, and hot air balloons.
An autogyro, or gyroplane, is a class of rotorcraft that uses an unpowered rotor in free autorotation to develop lift. While similar to a helicopter rotor in appearance, the autogyro's unpowered rotor disc must have air flowing upward across it to make it rotate.
Juan de la Cierva y Codorníu, 1st Count of la Cierva was a Spanish civil engineer, pilot and a self-taught aeronautical engineer. His most famous accomplishment was the invention in 1920 of a rotorcraft called Autogiro, a single-rotor type of aircraft that came to be called autogyro in the English language. In 1923, after four years of experimentation, De la Cierva developed the articulated rotor, which resulted in the world's first successful flight of a stable rotary-wing aircraft, with his C.4 prototype.
An ornithopter is an aircraft that flies by flapping its wings. Designers sought to imitate the flapping-wing flight of birds, bats, and insects. Though machines may differ in form, they are usually built on the same scale as flying animals. Larger, crewed ornithopters have also been built and some have been successful. Crewed ornithopters are generally either powered by engines or by the pilot.
The CarterCopter is an experimental compound autogyro developed by Carter Aviation Technologies in the United States to demonstrate slowed rotor technology. On 17 June 2005, the CarterCopter became the first rotorcraft to achieve mu-1 (μ=1), an equal ratio of airspeed to rotor tip speed, but crashed on the next flight and has been inoperable since. It is being replaced by the Carter Personal Air Vehicle.
The Focke-Wulf Triebflügel, or Triebflügeljäger, literally meaning "thrust-wing hunter", was a German concept for an aircraft designed in 1944, during the final phase of World War II, as a defence against the ever-increasing Allied bombing raids on central Germany. It was a vertical take-off and landing tailsitter interceptor design for local defense of important factories or areas which had small or no airfields.
Project Sign or Project Saucer was an official U.S. government study of unidentified flying objects (UFOs) undertaken by the United States Air Force (USAF) and active for most of 1948. It was the precursor to Project Grudge.
The Avro Canada VZ-9 Avrocar was a VTOL aircraft developed by Avro Canada as part of a secret U.S. military project carried out in the early years of the Cold War. The Avrocar intended to exploit the Coandă effect to provide lift and thrust from a single "turborotor" blowing exhaust out of the rim of the disk-shaped aircraft. In the air, it would have resembled a flying saucer.
On a helicopter, the main rotor or rotor system is the combination of several rotary wings with a control system, that generates the aerodynamic lift force that supports the weight of the helicopter, and the thrust that counteracts aerodynamic drag in forward flight. Each main rotor is mounted on a vertical mast over the top of the helicopter, as opposed to a helicopter tail rotor, which connects through a combination of drive shaft(s) and gearboxes along the tail boom. The blade pitch is typically controlled by the pilot using the helicopter flight controls. Helicopters are one example of rotary-wing aircraft (rotorcraft). The name is derived from the Greek words helix, helik-, meaning spiral; and pteron meaning wing.
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.
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".
John Carver Meadows Frost was a British aircraft designer. His primary contributions centred on pioneering supersonic British experimental aircraft and as the chief designer who shepherded Canada's first jet fighter project, the Avro Canada CF-100, to completion. He was also the major force behind the Avro Canada VTOL aircraft projects, particularly as the unheralded creator of the Avro Canada flying saucer projects.
Dissymmetry of lift in rotorcraft aerodynamics refers to an unequal amount of lift on opposite sides of the rotor disc. It is a phenomenon that affects single-rotor helicopters and autogyros in forward flight.
The Pitcairn OP-1 was the first rotary-wing aircraft to be seriously evaluated by any of the world's major air forces. The machine was not a helicopter, nor an airplane, but an autogyro. Pitcairn's model was never put into production for any military.
The Bölkow Bo 46 was a West German experimental helicopter built to test the Derschmidt rotor system that aimed to allow much higher speeds than traditional helicopter designs. Wind tunnel testing showed promise, but the Bo 46 demonstrated a number of problems and added complexity that led to the concept being abandoned. The Bo 46 was one of a number of new designs exploring high-speed helicopter flight that were built in the early 1960s.
The cyclogyro, or cyclocopter, is an aircraft configuration that uses a horizontal-axis cyclorotor as a rotor wing to provide lift and sometimes also propulsion and control. In principle, the cyclogyro is capable of vertical take off and landing and hovering performance like a helicopter, while potentially benefiting from some of the advantages of a fixed-wing aircraft.
The Cierva C.19 was a 1930s British two-seat autogyro, designed by Spanish engineer Juan de la Cierva. It was built by Avro as the Avro Type 620. It proved to be the most successful and widely produced of the early de la Cierva designs.
A rotor wing is a lifting rotor or wing which spins to provide aerodynamic lift. In general, a rotor may spin about an axis which is aligned substantially either vertically or side-to-side (spanwise). All three classes have been studied for use as lifting rotors and several variations have been flown on full-size aircraft, although only the vertical-axis rotary wing has become widespread on rotorcraft such as the helicopter.
The TsAGI A-4, sometimes anglicised as CAHI A-4 or ZAGI A-4, was an early Russian autogyro, influenced by Cierva designs and delivered in small numbers to the Soviet Air Force in 1934.
The 1933 experimental Pitcairn PA-22 was one of the first wingless autogyros. It was controlled by movement of the rotor plane rather than the usual control surfaces, though initially the much modified lone example retained rudders as a precaution.