record of designs

record of designs

Патенты: регистрация промышленных образцов

record of designs

регистрация промышленных образцов

record

1) запись; протокол; регистрация; записывать; регистрировать; протоколировать

2) данные

3) официальный документ

4) материалы заявки; материалы дела по заявке

5) материалы судебного дела

6) реестр, список

7) указатель

•

- record a conveyance

- record an assignment
- record a patent
- record of applications
- record of assignment
- record of designs
- record of discoveries
- record of inventions
- record of patents
- record of registrations and renewals
- record of specifications
- record of trademarks
- assignment record
- invention records
- patent record
- patent department record
- patent litigation records
- production records
- public records
- research record
- sales records

* * *

материалы заявки; материалы дела по заявке

Breguet, Louis

SUBJECT AREA: Aerospace

[br]

b. 2 January 1880 Paris, France

d. 4 May 1955 Paris, France

[br]

French aviation pioneer who built a helicopter in 1907 and designed many successful aircraft.

[br]

The Breguet family had been manufacturing fine clocks since before the French Revolution, but Louis Breguet and his brother Jacques used their mechanical skills to produce a helicopter, or "gyroplane" as they named it. It was a complex machine with four biplane rotors (i.e. thirty-two lifting surfaces). Louis Breguet had carried out many tests to determine the most suitable rotor design. The Breguet brothers were assisted by Professor Charles Richet and the Breguet-Richet No. 1 was tested in September 1907 when it succeeded in lifting itself, and its pilot, to a height of 1.5 metres. Unfortunately, the gyroplane was rather unstable and four helpers had to steady it; consequently, the flight did not qualify as a "free" flight. This was achieved two months later, also in France, by Paul Cornu who made a 20-second free flight.

Louis Breguet turned his attention to aeroplane design and produced a tractor biplane when most other biplanes followed the Wright brothers' layout with a forward elevator and pusher propeller. The Breguet I made quite an impression at the 1909 Reims meeting, but the Breguet IV created a world record the following year by carrying six people. During the First World War the Breguet Type 14 bomber was widely used by French and American squadrons. Between the First and Second World Wars a wide variety of designs were produced, including flying boats and another helicopter, the Breguet- Dorand Gyroplane which flew for over one hour in 1936. The Breguet company survived World War II and in the late 1940s developed a successful four-engined airliner/transport, the Deux-Ponts, which had a bulbous double-deck fuselage.

Breguet was an innovative designer, although his designs were functional rather than elegant. He was an early advocate of metal construction and developed an oleo- (oil-spring) undercarriage leg.

[br]

Bibliography

1925, Le Vol à voile dynamique des oiseaux. Analyse des effets des pulsations du vent sur la résultante aérodynamique moyenne d'un planeur, Paris.

Further Reading

P.Faure, 1938, Louis Breguet, Paris (biography).

C.H.Gibbs-Smith, 1965, The Invention of the Aeroplane 1799–1909, London (provides a careful analysis of Breguet's early aircraft).

JDS

Fokker, Anthony Herman Gerard

SUBJECT AREA: Aerospace

[br]

b. 6 April 1890 Kediri, Java, Dutch East Indies (now Indonesia)

d. 23 December 1939 New York, USA

[br]

Dutch designer of German fighter aircraft during the First World War and of many successful airliners during the 1920s and 1930s.

[br]

Anthony Fokker was born in Java, where his Dutch father had a coffee plantation. The family returned to the Netherlands and, after schooling, young Anthony went to Germany to study aeronautics. With the aid of a friend he built his first aeroplane, the Spin, in 1910: this was a monoplane capable of short hops. By 1911 Fokker had improved the Spin and gained a pilot's licence. In 1912 he set up a company called Fokker Aeroplanbau at Johannistal, outside Berlin, and a series of monoplanes followed.

When war broke out in 1914 Fokker offered his designs to both sides, and the Germans accepted them. His E I monoplane of 1915 caused a sensation with its manoeuvrability and forward-firing machine gun. Fokker and his collaborators improved on the French deflector system introduced by Raymond Saulnier by fitting an interrupter gear which synchronized the machine gun to fire between the blades of the rotating propeller. The Fokker Dr I triplane and D VII biplane were also outstanding German fighters of the First World War. Fokker's designs were often the work of an employee who received little credit: nevertheless, Fokker was a gifted pilot and a great organizer. After the war, Fokker moved back to the Netherlands and set up the Fokker Aircraft Works in Amsterdam. In 1922, however, he emigrated to the USA and established the Atlantic Aircraft Corporation in New Jersey. His first significant success there came the following year when one of his T-2 monoplanes became the first aircraft to fly non-stop across the USA, from New York to San Diego. He developed a series of civil aircraft using the well-proven method of construction he used for his fighters: fuselages made from steel tubes and thick, robust wooden wings. Of these, probably the most famous was the F VII/3m, a high-wing monoplane with three engines and capable of carrying about ten passengers. From 1925 the F VII/3m airliner was used worldwide and made many record-breaking flights, such as Lieutenant-Commander Richard Byrd's first flight over the North Pole in 1926 and Charles Kingsford-Smith's first transpacific flight in 1928. By this time Fokker had lost interest in military aircraft and had begun to see flight as a means of speeding up global communications and bringing people together. His last years were spent in realizing this dream, and this was reflected in his concentration on the design and production of passenger aircraft.

[br]

Principal Honours and Distinctions

Royal Netherlands Aeronautical Society Gold Medal 1932.

Bibliography

1931, The Flying Dutchman: The Life of Anthony Fokker, London: Routledge \& Sons (an interesting, if rather biased, autobiography).

Further Reading

A.R.Weyl, 1965, Fokker: The Creative Years, London; reprinted 1988 (a very detailed account of Fokker's early work).

Thijs Postma, 1979, Fokker: Aircraft Builders to the World, Holland; 1980, English edn, London (a well-illustrated history of Fokker and the company).

Henri Hegener, 1961, Fokker: The Man and His Aircraft, Letchworth, Herts.

JDS / CM

Holland, John Philip

SUBJECT AREA: Ports and shipping

[br]

b. 29 February 1840 Liscanor, Co. Clare, Ireland

d. 12 August 1915 Newark, New Jersey, USA

[br]

Irish/American inventor of the successful modern submarine

[br]

Holland was educated first in his native town and later in Limerick, a seaport bustling with coastal trade ships. His first job was that of schoolteacher, and as such he worked in various parts of Ireland until he was about 32 years old. A combination of his burning patriotic zeal for Ireland and his interest in undersea technology (then in its infancy) made him consider designs for underwater warships for use against the British Royal Navy in the fight for Irish independence. He studied all known works on the subject and commenced drawing plans, but he was unable to make real headway owing to a lack of finance.

In 1873 he travelled to the United States, ultimately settling in New Jersey and continuing in the profession of teaching. His work on submarine design continued, but in 1875 he suffered a grave setback when the United States Navy turned down his designs. Help came from an unexpected source, the Irish Republican Brotherhood, or Fenian Society, which had been founded in Dublin and New York in 1858. Financial help enabled Holland to build a 4 m (13 ft) one-person craft, which was tested in 1878, and then a larger boat of 19 tonnes' displacement that was tested with a crew of three to depths of 20 m (65 ft) in New York's harbour in 1883. Known as the Fenian Ram, it embodied most of the principles of modern submarines, including weight compensation. The Fenians commandeered this boat, but they were unable to operate it satisfactorily and it was relegated to history.

Holland continued work, at times independently and sometimes with others, and continuously advocated submarines to the United States Navy. In 1895 he was successful in winning a contract for US$150,000 to build the US Submarine Plunger at Baltimore. With too much outside interference, this proved an unsatisfactory venture. However, with only US$5,000 of his capital left, Holland started again and in 1898 he launched the Holland at Elizabeth, New Jersey. This 16 m (52 ft) vessel was successful, and in 1900 it was purchased by the United States Government.

Six more boats were ordered by the Americans, and then some by the Russians and the Japanese. The British Royal Navy ordered five, which were built by Vickers Son and Maxim (now VSEL) at Barrow-in-Furness in the years up to 1903, commencing their long run of submarine building. They were licensed by another well-known name, the Electric Boat Company, which had formerly been the J.P.Holland Torpedo Boat Company.

Holland now had some wealth and was well known. He continued to work, trying his hand at aeronautical research, and in 1904 he invented a respirator for use in submarine rescue work. It is pleasing to record that one of his ships can be seen to this day at the Royal Navy Submarine Museum, Gosport: HM Submarine Holland No. 1, which was lost under tow in 1913 but salvaged and restored in the 1980s.

[br]

Principal Honours and Distinctions

Order of the Rising Sun, Japan, 1910.

Bibliography

1900, "The submarine boat and its future", North American Review (December). Holland wrote several other articles of a similar nature.

Further Reading

R.K.Morris, 1966 John P.Holland 1841–1914, Inventor of the Modern Submarine, Annapolis, MD: US Naval Institute.

F.W.Lipscomb, 1975, The British Submarine, London: Conway Maritime Press. A.N.Harrison, 1979, The Development of HM Submarines from Holland No. 1 (1901) to

Porpoise (1930), Bath: MoD Ships Department (internal publication).

FMW

Messerschmitt, Willi E.

SUBJECT AREA: Aerospace

[br]

b. 26 June 1898 Frankfurt-am-Main, Germany

d. 17 September 1978 Munich, Germany

[br]

German aircraft designer noted for successful fighters such as the Bf 109, one of the world's most widely produced aircraft.

[br]

Messerschmitt studied engineering at the Munich Institute of Tchnology and obtained his degree in 1923. By 1926 he was Chief Designer at the Bayerische Flugzeugwerke in Augsburg. Due to the ban on military aircraft in Germany following the First World War, his early designs included gliders, light aircraft, and a series of high-wing airliners. He began to make a major impact on German aircraft design once Hitler came to power and threw off the shackles of the Treaty of Versailles, which so restricted Germany's armed forces. In 1932 he bought out the now-bankrupt Bayerische Flugzeugwerke, but initially, because of enmity between himself and the German aviation minister, was not invited to compete for an air force contract for a single-engined fighter. However, in 1934 Messerschmitt designed the Bf 108 Taifun, a small civil aircraft with a fighter-like appearance. This displayed the quality of his design and the German air ministry was forced to recognize him. As a result, he unveiled the famous Bf 109 fighter which first flew in August 1935; it was used during the Spanish Civil War in 1936–9, and was to become one of the foremost combat aircraft of the Second World War. In 1938, after several name changes, the company became Messerschmitt Aktien-Gesellschaft (and hence a change of prefix from Bf to Me). During April 1939 a Messerschmitt aircraft broke the world air-speed record at 755.14 km/h (469.32 mph): it was entered in the FAI records as a Bf 109R, but was more accurately a new design designated Me 209V-1.

During the Second World War, the 5/70P was progressively improved, and eventually almost 35,000 were built. Other successful fighters followed, such as the twin-engined Me 110 which also served as a bomber and night fighter. The Messerschmitt Me 262 twin-engined jet fighter, the first jet aircraft in the world to enter service, flew during the early years of the war, but it was never given a high priority by the High Command and only a small number were in service when the war ended. Another revolutionary Messerschmitt AG design was the Me 163 Komet, the concept of Professor Alexander Lippisch who had joined Messerschmitt's company in 1939; this was the first rocket-propelled fighter to enter service. It was a small tailless design capable of 880 km/hr (550 mph), but its duration under power was only about 10 minutes and it was very dangerous to fly. From late 1944 onwards it was used to intercept the United States Air Force bombers during their daylight raids. At the other end of the scale, Messerschmitt produced the Me 321 Gigant, a huge transport glider which was towed behind a flight of three Me 110s. Later it was equipped with six engines, but it was an easy target for allied fighters. This was a costly white elephant, as was his high-speed twin-engined Me 210 fighter-bomber project which nearly made his company bankrupt. Nevertheless, he was certainly an innovator and was much admired by Hitler, who declared that he had "the skull of a genius", because of the Me 163 Komet rocket-powered fighter and the Me 262.

At the end of the war Messerschmitt was detained by the Americans for two years. In 1952 Messerschmitt became an aviation adviser to the Spanish government, and his Bf109 was produced in Spain as the Hispano Buchon for a number of years and was powered by Rolls-Royce Merlin engines. A factory was also constructed in Egypt to produce aircraft to Messerschmitt's designs. His German company, banned from building aircraft, produced prefabricated houses, sewing machines and, from 1953 to 1962, a series of bubble-cars: the KR 175 (1953–55) and the KR 200 (1955–62) were single-cylinder three-wheeled bubble-cars, and the Tiger (1958–62) was a twin-cylinder, 500cc four-wheeler. In 1958 Messerschmitt resumed aircraft construction in Germany and later became the Honorary Chairman of the merged Messerschmitt-Bölkow-Blohm company (now part of the Franco-German Eurocopter company).

[br]

Further Reading

van Ishoven, 1975, Messerschmitt. Aircraft Designer, London. J.Richard Smith, 1971, Messerschmitt. An Air-craft Album, London.

Anthony Pritchard, 1975, Messerschmitt, London (describes Messerschmitt aircraft).

JDS / CM

Gresley, Sir Herbert Nigel

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 19 June 1876 Edinburgh, Scotland

d. 5 April 1941 Hertford, England

[br]

English mechanical engineer, designer of the A4-class 4–6–2 locomotive holding the world speed record for steam traction.

[br]

Gresley was the son of the Rector of Netherseale, Derbyshire; he was educated at Marlborough and by the age of 13 was skilled at making sketches of locomotives. In 1893 he became a pupil of F.W. Webb at Crewe works, London \& North Western Railway, and in 1898 he moved to Horwich works, Lancashire \& Yorkshire Railway, to gain drawing-office experience under J.A.F.Aspinall, subsequently becoming Foreman of the locomotive running sheds at Blackpool. In 1900 he transferred to the carriage and wagon department, and in 1904 he had risen to become its Assistant Superintendent. In 1905 he moved to the Great Northern Railway, becoming Superintendent of its carriage and wagon department at Doncaster under H.A. Ivatt. In 1906 he designed and produced a bogie luggage van with steel underframe, teak body, elliptical roof, bowed ends and buckeye couplings: this became the prototype for East Coast main-line coaches built over the next thirty-five years. In 1911 Gresley succeeded Ivatt as Locomotive, Carriage \& Wagon Superintendent. His first locomotive was a mixed-traffic 2–6–0, his next a 2–8–0 for freight. From 1915 he worked on the design of a 4–6–2 locomotive for express passenger traffic: as with Ivatt's 4 4 2s, the trailing axle would allow the wide firebox needed for Yorkshire coal. He also devised a means by which two sets of valve gear could operate the valves on a three-cylinder locomotive and applied it for the first time on a 2–8–0 built in 1918. The system was complex, but a later simplified form was used on all subsequent Gresley three-cylinder locomotives, including his first 4–6–2 which appeared in 1922. In 1921, Gresley introduced the first British restaurant car with electric cooking facilities.

With the grouping of 1923, the Great Northern Railway was absorbed into the London \& North Eastern Railway and Gresley was appointed Chief Mechanical Engineer. More 4–6– 2s were built, the first British class of such wheel arrangement. Modifications to their valve gear, along lines developed by G.J. Churchward, reduced their coal consumption sufficiently to enable them to run non-stop between London and Edinburgh. So that enginemen might change over en route, some of the locomotives were equipped with corridor tenders from 1928. The design was steadily improved in detail, and by comparison an experimental 4–6–4 with a watertube boiler that Gresley produced in 1929 showed no overall benefit. A successful high-powered 2–8–2 was built in 1934, following the introduction of third-class sleeping cars, to haul 500-ton passenger trains between Edinburgh and Aberdeen.

In 1932 the need to meet increasing road competition had resulted in the end of a long-standing agreement between East Coast and West Coast railways, that train journeys between London and Edinburgh by either route should be scheduled to take 8 1/4 hours. Seeking to accelerate train services, Gresley studied high-speed, diesel-electric railcars in Germany and petrol-electric railcars in France. He considered them for the London \& North Eastern Railway, but a test run by a train hauled by one of his 4–6–2s in 1934, which reached 108 mph (174 km/h), suggested that a steam train could better the railcar proposals while its accommodation would be more comfortable. To celebrate the Silver Jubilee of King George V, a high-speed, streamlined train between London and Newcastle upon Tyne was proposed, the first such train in Britain. An improved 4–6–2, the A4 class, was designed with modifications to ensure free running and an ample reserve of power up hill. Its streamlined outline included a wedge-shaped front which reduced wind resistance and helped to lift the exhaust dear of the cab windows at speed. The first locomotive of the class, named Silver Link, ran at an average speed of 100 mph (161 km/h) for 43 miles (69 km), with a maximum speed of 112 1/2 mph (181 km/h), on a seven-coach test train on 27 September 1935: the locomotive went into service hauling the Silver Jubilee express single-handed (since others of the class had still to be completed) for the first three weeks, a round trip of 536 miles (863 km) daily, much of it at 90 mph (145 km/h), without any mechanical troubles at all. Coaches for the Silver Jubilee had teak-framed, steel-panelled bodies on all-steel, welded underframes; windows were double glazed; and there was a pressure ventilation/heating system. Comparable trains were introduced between London Kings Cross and Edinburgh in 1937 and to Leeds in 1938.

Gresley did not hesitate to incorporate outstanding features from elsewhere into his locomotive designs and was well aware of the work of André Chapelon in France. Four A4s built in 1938 were equipped with Kylchap twin blast-pipes and double chimneys to improve performance still further. The first of these to be completed, no. 4468, Mallard, on 3 July 1938 ran a test train at over 120 mph (193 km/h) for 2 miles (3.2 km) and momentarily achieved 126 mph (203 km/h), the world speed record for steam traction. J.Duddington was the driver and T.Bray the fireman. The use of high-speed trains came to an end with the Second World War. The A4s were then demonstrated to be powerful as well as fast: one was noted hauling a 730-ton, 22-coach train at an average speed exceeding 75 mph (120 km/h) over 30 miles (48 km). The war also halted electrification of the Manchester-Sheffield line, on the 1,500 volt DC overhead system; however, anticipating eventual resumption, Gresley had a prototype main-line Bo-Bo electric locomotive built in 1941. Sadly, Gresley died from a heart attack while still in office.

[br]

Principal Honours and Distinctions

Knighted 1936. President, Institution of Locomotive Engineers 1927 and 1934. President, Institution of Mechanical Engineers 1936.

Further Reading

F.A.S.Brown, 1961, Nigel Gresley, Locomotive Engineer, Ian Allan (full-length biography).

John Bellwood and David Jenkinson, Gresley and Stanier. A Centenary Tribute (a good comparative account).

See also: Bulleid, Oliver Vaughan Snell

PJGR

Porsche, Ferdinand

SUBJECT AREA: Automotive engineering, Land transport

[br]

b. 3 September 1875 Maffersdorf, Austria

d. 30 January 1952 Stuttgart, Baden-Württemberg, Germany

[br]

Austrian automobile engineer, designer of the Volkswagen car.

[br]

At the age of fifteen, Porsche built a complete electrical installation for his home. In 1894 he went to technical school in Vienna. Four years later he became Manager of the test department of the Bela Egger concern, which later became part of the Brown Boveri organization where he became the first Assistant in the calculating section. In 1899 he joined the long-established coachbuilders Jacob Lohner, and in 1902 a car of his design with mixed drive won the 1,000 kg (2,200 lb) class in the Exelberg races. In 1905 he joined the Austro-Daimler Company as Technical Director; his subsequent designs included an 85 hp mixed-drive racing car in 1907 and in 1912 an air-cooled aircraft engine which came to be known in later years as the "great-grandfather" of the Volkswagen engine. In 1916, he became Managing Director of Austro-Daimler.

In 1921 he designed his first small car, which, appearing under the name of Sasch, won its class in the 1922 Targa Florio, a gruelling road-race in Italy. In 1923 Porsche left Austro-Daimler and joined the Daimler Company in Untertürk-heim, near Stuttgart, Germany. In 1929 he joined the firm of Steyr in Austria as a director and chief engineer, and in 1930 he set up his own independent design office in Stuttgart. In 1932 he visited Russia, and in the same year completed the design calculations for the Auto-Union racing car.

In 1934, with his son Ferry (b. 1909), he prepared a plan for the construction of the German "people's car", a project initiated by Adolf Hitler and his Nazi regime; in June of that year he signed a contract for the design work on the Volkswagen. Racing cars of his design were also successful in 1934: the rear-engined Auto-Union won the German Grand Prix, and another Au to-Union car took the Flying Kilometre speed record at 327 km/h (203.2 mph). In 1935 Daimler-Benz started preproduction on the Volkswagen. The first trials of the cars took place in the autumn of 1936, and the following year thirty experimental cars were built by Daimler-Benz. In that year, Porsche visited the United States, where he met Henry Ford; in October an Auto-Union took the Flying Five Kilometre record at 404.3 km/h (251.2 mph). On 26 May 1938, the foundation stone of the Volkswagen factory was laid in Wolfsburg, near Braunschweig, Germany.

In October 1945 Ferdinand Porsche was arrested by a unit of the United States Army and taken to Hessen; the French army removed him to Baden-Baden, then to Paris and later to Dijon. During this time he was consulted by Renault engineers regarding the design of their 4CV and designed a diesel-engined tractor. He was finally released on 5 August 1947. His last major work before his death was the approval of the design for the Cisitalia Grand Prix car.

[br]

Principal Honours and Distinctions

Poetting Medal 1905. Officer's Cross of Franz Josef 1916. Honorary PhD, Vienna Technical University 1916. Honorary PhD, University of Stuttgart 1924.

Further Reading

K.Ludvigsen, 1983, Porsche: Excellence Was Expected: The Complete History of the Sports and Racing Cars, London: Frederick Muller.

T.Shuler and G.Borgeson, 1985, "Origin and Evolution of the VW Beetle", Automobile

Quarterly (May).

M.Toogood, 1991, Porsche—Germany's Legend, London: Apple Press.

IMcN

RRD

1) Компьютерная техника: Receive, Record, Display

2) Американизм: Reactor Radiation Division, Regular Retirement Date, Research Reactors Division

3) Военный термин: Radio Research Detachment, Regimental Reconnaissance Detachment, Regional Readiness Data, reliability requirements directive, replacement regulating detachment

4) Техника: retendering receipt day

5) Религия: Redeemed Resurrected Delivered

6) Грубое выражение: Really, Really Dumb

7) Физиология: Removal of Rigid Dressing

8) Онкология: Recurrence Rate Data

9) Транспорт: Radar Range Development

10) Фирменный знак: Roberto Ricci Designs

11) Безопасность: Resonant Reed Decoder

12) ООН: Required Reply Date

13) НАСА: Raw Radar Data, Reduced Resolution Data, Reliability Requirements Database, Removal - Replacement Data

14) Базы данных: Round Robin Database

copyright

1. noun

Copyright, das; Urheberrecht, das

be out of copyright — gemeinfrei [geworden] sein

protected by copyright — urheberrechtlich geschützt

2. adjective

urheberrechtlich geschützt

* * *

noun ((usually abbreviated to ©) the sole right to reproduce a literary, dramatic, musical or artistic work, and also to perform, translate, film, or record such a work.) das Urheberrecht

* * *

copy·right

[ˈkɒpiraɪt, AM ˈkɑ:pi-]

I. n Copyright nt, Urheberrecht nt

the publishers own the \copyright on [or for] the play der Verlag hat das Copyright an dem Stück

this work is out of \copyright dieses Werk ist nicht [mehr] urheberrechtlich geschützt

breach [or infringement] of \copyright Verletzung f des Urheberrechts, Verstoß m gegen das Urheberrecht

to be subject to \copyright urheberrechtlich geschützt sein

protected under [or by] \copyright urheberrechtlich geschützt

work still in \copyright urheberrechtlich geschütztes Werk

II. vt

▪ to \copyright sth etw urheberrechtlich schützen

III. adj urheberrechtlich geschützt

* * *

['kɒpIraɪt]

1. n

Copyright nt, Urheberrecht nt

out of copyright — urheberrechtlich nicht mehr geschützt

2. adj

urheberrechtlich geschützt

3. vt

book urheberrechtlich schützen; (author) urheberrechtlich schützen lassen

* * *

copyright JUR

A s Urheberrecht n, Copyright n (in, on, of, for für, von):

copyright in designs WIRTSCH Br Urheberrecht an Mustern, Musterschutz m;

copyright holder ( oder proprietor) Inhaber(in) des Urheberrechts

B v/t

a) das Urheberrecht erwerben für oder von

b) urheberrechtlich schützen

C adj urheberrechtlich geschützt

c. abk

1. carat

2. CHEM carbon

3. cent ( cents pl)

4. century

5. centuries pl

6. chapter

7. circa

8. copyright

* * *

1. noun

Copyright, das; Urheberrecht, das

be out of copyright — gemeinfrei [geworden] sein

protected by copyright — urheberrechtlich geschützt

2. adjective

urheberrechtlich geschützt

* * *

n.

Copyright n.

Caproni, Giovanni Battista (Gianni), Conte di Taliedo

SUBJECT AREA: Aerospace

[br]

b. 3 June 1886 Massone, Italy

d. 29 October 1957 Rome, Italy

[br]

Italian aircraft designer and manufacturer, well known for his early large-aircraft designs.

[br]

Gianni Caproni studied civil and electrical engineering in Munich and Liège before moving on to Paris, where he developed an interest in aeronautics. He built his first aircraft in 1910, a biplane with a tricycle undercarriage (which has been claimed as the world's first tricycle undercarriage). Caproni and his brother, Dr Fred Caproni, set up a factory at Malpensa in northern Italy and produced a series of monoplanes and biplanes. In 1913 Caproni astounded the aviation world with his Ca 30 three-engined biplane bomber. There followed many variations, of which the most significant were the Ca 32 of 1915, the first large bomber to enter service in significant numbers, and the Ca 42 triplane of 1917 with a wing span of almost 30 metres.

After the First World War, Caproni designed an even larger aircraft with three pairs of triplane wings (i.e. nine wings each of 30 metres span) and eight engines. This Ca 60 flying boat was designed to carry 100 passengers. In 1921 it made one short flight lightly loaded; however, with a load of sandbags representing sixty passengers, it crashed soon after take-off. The project was abandoned but Caproni's company prospered and expanded to become one of the largest groups of companies in Italy. In the 1930s Caproni aircraft twice broke the world altitude record. Several Caproni types were in service when Italy entered the Second World War, and an unusual research aircraft was under development. The Caproni-Campini No. 1 (CC2) was a jet, but it did not have a gas-turbine engine. Dr Campini's engine used a piston engine to drive a compressor which forced air out through a nozzle, and by burning fuel in this airstream a jet was produced. It flew with limited success in August 1940, amid much publicity: the first German jet (1939) and the first British jet (1941) were both flown in secret. Caproni retained many of his early aircraft for his private museum, including some salvaged parts from his monstrous flying boat.

[br]

Principal Honours and Distinctions

Created Conte di Taliedo 1940.

Further Reading

Dizionario biografico degli Italiani, 1976, Vol. XIX.

The Caproni Museum has published two books on the Caproni aeroplanes: Gli Aeroplani Caproni -1909–1935 and Gli Aeroplani Caproni dal 1935 in poi. See also Jane's

fighting Aircraft of World War 1; 1919, republished 1990.

See also: Heinkel, Ernst; Ohain, Hans Joachim Pabst von; Whittle, Sir Frank

JDS

Farman, Henri

SUBJECT AREA: Aerospace

[br]

b. 26 May 1874 Paris, France

d. 17 July 1958 Paris, France

[br]

French aeroplane designer who modified Voisin biplanes and later, with his brother Maurice (b. 21 March 1877 Paris, France; d. 26 February 1964 Paris, France), created a major aircraft-manufacturing company.

[br]

The parents of Henri and Maurice Farman were British subjects living in Paris, but their sons lived all their lives in France and became French citizens. As young men, both became involved in cycle and automobile racing. Henri (or Henry—he used both versions) turned his attention to aviation in 1907 when he bought a biplane from Gabriel Voisin. Within a short time he had established himself as one of the leading pilots in Europe, with many record-breaking flights to his credit. Farman modified the Voisin with his own improvements, including ailerons, and then in 1909 he designed the first Farman biplane. This became the most popular biplane in Europe from the autumn of 1909 until well into 1911 and is one of the classic aeroplanes of history. Meanwhile, Maurice Farman had also begun to design and build biplanes; his first design of 1909 was not a great success but from it evolved two robust biplanes nicknamed the "Longhorn" and the "Shorthorn", so called because of their undercarriage skids. In 1912 the brothers joined forces and set up a very large factory at Billancourt. The "Longhorn" and "Shorthorn" became the standard training aircraft in France and Britain during the early years of the First World War. The Farman brothers went on to produce a number of other wartime designs, including a large bomber. After the war the Farmans produced a series of large airliners which played a key role in establishing France as a major airline operator. Most famous of these was the Goliath, a twin-engined biplane capable of carrying up to twelve passengers. This was produced from 1918 to 1929 and was used by many airlines, including the Farman Line. The brothers retired when their company was nationalized in 1937.

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Bibliography

1910, The Aviator's Companion, London (with his brother Dick Farman).

Further Reading

M.Farman, 1901, 3,000 kilomètres en ballon, Paris (an account of several balloon flights from 1894 to 1900).

J.Liron, 1984, Les Avions Farman, Paris (provides comprehensive descriptions of all Farman aircraft).

Jane's Fighting Aircraft of World War I, 1990, London (reprint) (gives details of all early Farman aircraft).

J.Stroud, 1966, European Aircraft since 1910, London (provides details about Farman air-liners).

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Fulton, Robert

SUBJECT AREA: Ports and shipping

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b. 14 November 1765 Lancaster, Pennsylvania, USA

d. 24 February 1815 New York, USA

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American pioneer of steamships and of North American steam navigation.

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The early life of Fulton is documented sparsely; however, it is clear that he was brought up in poor circumstances along with three sisters and one brother by a widowed mother. The War of Independence was raging around them for some years, but despite this it is believed that he spent some time learning the jeweller's trade in Philadelphia and had by then made a name for himself as a miniaturist. Throughout his life he remained skilled with his hands and well able to record technical detail on paper. He witnessed many of the early trials of American steamboats and saw the work of William Henry and John Fitch, and in 1787 he set off for the first time to Europe. For some years he examined steamships in Paris and without doubt saw the Charlotte Dundas on the Forth and Clyde Canal near Glasgow. In 1803 he built a steamship that ran on the Seine at 4 1/2 mph (7.25 km/h), and when it was lost, another to replace it. All his designs were based on principles that had been tried and proved elsewhere, and in this respect he was more of a developer than an inventor. After some time experimenting with submersibles and torpedoes for the British and French governments, in 1806 he returned to the United States. In 1807 he took delivery of the 100 ton displacement paddle steamer Clermont from the yard of Charles Browne of East River, New York. In August of that year it started the passenger services on the Hudson River and this can be claimed as the commencement of world passenger steam navigation. Again the ship was traditional in shape and the machinery was supplied by Messrs Boulton and Watt. This was followed by other ships, including Car of Neptune, Paragon and the world's first steam warship, Demolgos, launched in New York in October 1814 and designed by Fulton for coastal defence and the breaking of the British blockade. His last and finest boat was named Chancellor Livingston after his friend and patron Robert Livingston (1746–1813); the timber hull was launched in 1816, some months after Fulton's death.

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Further Reading

H.P.Spratt, 1958, The Birth of the Steamboat, London: Griffin. J.T.Flexner, 1978, Steamboats Come True, Boston: Little, Brown.

"Robert Fulton and the centenary of steam navigation", Engineer (16 August 1907).

FMW

Johnson, Eldridge Reeves

SUBJECT AREA: Recording

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b. 18 February 1867 Wilmington, Delaware, USA

d. 14 November 1945 Moorestown, New Jersey, USA

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American industrialist, founder and owner of the Victor Talking Machine Company; developer of many basic constructions in mechanical sound recording and the reproduction and manufacture of gramophone records.

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He graduated from the Dover Academy (Delaware) in 1882 and was apprenticed in a machine-repair firm in Philadelphia and studied in evening classes at the Spring Garden Institute. In 1888 he took employment in a small Philadelphia machine shop owned by Andrew Scull, specializing in repair and bookbinding machinery. After travels in the western part of the US, in 1891 he became a partner in Scull \& Johnson, Manufacturing Machinists, and established a further company, the New Jersey Wire Stitching Machine Company. He bought out Andrew Scull's interest in October 1894 (the last instalment being paid in 1897) and became an independent general machinist. In 1896 he had perfected a spring motor for the Berliner flat-disc gramophone, and he started experimenting with a more direct method of recording in a spiral groove: that of cutting in wax. Co-operation with Berliner eventually led to the incorporation of the Victor Talking Machine Company in 1901. The innumerable court cases stemming from the fact that so many patents for various elements in sound recording and reproduction were in very many hands were brought to an end in 1903 when Johnson was material in establishing cross-licencing agreements between Victor, Columbia Graphophone and Edison to create what is known as a patent pool. Early on, Johnson had a thorough experience in all matters concerning the development and manufacture of both gramophones and records. He made and patented many major contributions in all these fields, and his approach was very business-like in that the contribution to cost of each part or process was always a decisive factor in his designs. This attitude was material in his consulting work for the sister company, the Gramophone Company, in London before it set up its own factories in 1910. He had quickly learned the advantages of advertising and of providing customers with durable equipment and records. This motivation was so strong that Johnson set up a research programme for determining the cause of wear in records. It turned out to depend on groove profile, and from 1911 one particular profile was adhered to and processes for transforming the grooves of valuable earlier records were developed. Without precise measuring instruments, he used the durability as the determining factor. Johnson withdrew more and more to the role of manager, and the Victor Talking Machine Company gained such a position in the market that the US anti-trust legislation was used against it. However, a generation change in the Board of Directors and certain erroneous decisions as to product line started a decline, and in February 1926 Johnson withdrew on extended sick leave: these changes led to the eventual sale of Victor. However, Victor survived due to the advent of radio and the electrification of replay equipment and became a part of Radio Corporation of America. In retirement Johnson took up various activities in the arts and sciences and financially supported several projects; his private yacht was used in 1933 in work with the Smithsonian Institution on a deep-sea hydrographie and fauna-collecting expedition near Puerto Rico.

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Bibliography

Johnson's patents were many, and some were fundamental to the development of the gramophone, such as: US patent no. 650,843 (in particular a recording lathe); US patent nos. 655,556, 655,556 and 679,896 (soundboxes); US patent no. 681,918 (making the original conductive for electroplating); US patent no. 739,318 (shellac record with paper label).

Further Reading

Mrs E.R.Johnson, 1913, "Eldridge Reeves Johnson (1867–1945): Industrial pioneer", manuscript (an account of his early experience).

E.Hutto, Jr, "Emile Berliner, Eldridge Johnson, and the Victor Talking Machine Company", Journal of AES 25(10/11):666–73 (a good but brief account based on company information).

E.R.Fenimore Johnson, 1974, His Master's Voice was Eldridge R.Johnson, Milford, Del.

(a very personal biography by his only son).

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Sikorsky, Igor Ivanovich

SUBJECT AREA: Aerospace

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b. 25 May 1889 Kiev, Ukraine

d. 26 October 1972 Easton, Connecticut, USA

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Russian/American pioneer of large aeroplanes, flying boats, and helicopters.

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Sikorsky trained as an engineer but developed an interest in aviation at the age of 19 when he was allowed to spend several months in Paris to meet French aviators. He bought an Anzani aero-engine and took it back to Russia, where he designed and built a helicopter. In his own words, "It had one minor technical problem—it would not fly—but otherwise it was a good helicopter".

Sikorsky turned to aeroplanes and built a series of biplanes: by 1911 the 5–5 was capable of flights lasting an hour. Following this success, the Russian-Baltic Railroad Car Company commissioned Sikorsky to build a large aeroplane. On 13 May 1913 Sikorsky took off in the Grand, the world's first four-engined aeroplane. With a wing span of 28 m (92 ft) it was also the world's largest, and was unique in that the crew were in an enclosed cabin with dual controls. The even larger Ilia Mourometz flew the following year and established many records, including the carriage of sixteen people. During the First World War many of these aircraft were built and served as heavy bombers.

Following the revolution in Russia during 1917, Sikorsky emigrated first to France and then the United States, where he founded his own company. After building the successful S-38 passenger-carrying amphibian, the Sikorsky Aviation Corporation became part of the United Aircraft Corporation and went on to produce several large flying boats. Of these, the four-engined S-42 was probably the best known, for its service to Hawaii in 1935 and trial flights across the Atlantic in 1937.

In the late 1930s Sikorsky once again turned his attention to helicopters, and on 14 September 1939 his VS-300 made its first tentative hop, with Sikorsky at the controls. Many improvements were made and on 6 May 1941 Sikorsky made a record-breaking flight of over 1½ hours. The Sikorsky design of a single main lifting rotor combined with a small tail rotor to balance the torque effect has dominated helicopter design to this day. Sikorsky produced a long series of outstanding helicopter designs which are in service throughout the world.

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Principal Honours and Distinctions

Chevalier de la Légion d'honneur 1960. Presidential Certificate of Merit 1948. Aeronautical Society Silver Medal 1949.

Bibliography

1971, "Sixty years in flying", Aeronautical Journal (Royal Aeronautical Society) (November) (interesting and amusing).

1938, The Story of the Winged S., New York; 1967, rev. edn.

Further Reading

D.Cochrane et al., 1990, The Aviation Careers of Igor Sikorsky, Seattle.

K.N.Finne, 1988, Igor Sikorsky: The Russian Years, ed. C.J.Bobrow and V.Hardisty, Shrewsbury; orig. pub. in Russian, 1930.

F.J.Delear, 1969, Igor Sikorsky: His Three Careers in Aviation, New York.

JDS

Zeppelin, Count Ferdinand von

SUBJECT AREA: Aerospace

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b. 8 July 1838 Konstanz, Germany

d. 8 March 1917 Berlin, Germany

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German designer of rigid airships, which became known as Zeppelins.

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Zeppelin served in the German Army and retired with the rank of General in 1890. While in the army, he was impressed by the use of balloons in the American Civil War and during the Siege of Paris. By the time he retired, non-rigid airships were just beginning to make their mark. Zeppelin decided to build an airship with a rigid framework to support the gas bags. Plans were drawn up in 1893 with the assistance of Theodore Kober, an engineer, but the idea was rejected by the authorities. A company was founded in 1898 and construction began. The Luftschiff Zeppelin No. 1 (LZ1) made its first flight on 2 July 1900. Modifications were needed and the second flight took place in October. A reporter called Hugo Eckener covered this and later flights: his comments and suggestions so impressed Zeppelin that Eckener eventually became his partner, publicist, fund-raiser and pilot.

The performance of the subsequent Zeppelins gradually improved, but there was limited military interest. In November 1909 a company with the abbreviated name DELAG was founded to operate passenger-carrying Zeppelins. The service was opened by LZ 7 Deutschland in mid-June 1910, and the initial network of Frankfurt, Baden- Baden and Düsseldorf was expanded. Eckener became a very efficient Director of Flight Operations, and by the outbreak of war in 1914 some 35,000 passengers had been carried without any fatalities. During the First World War many Zeppelins were built and they carried out air-raids on Britain. Despite their menacing reputation, they were very vulnerable to attack by fighters. Zeppelin, now in his seventies, turned his attention to large bombers, following the success of Sikorsky's Grand, but he died in 1917. Eckener continued to instruct crews and improve the Zeppelin designs. When the war ended Eckener arranged to supply the Americans with an airship as part of German reparations: this became the Los Angeles. In 1928 a huge new airship, the Graf Zeppelin, was completed and Eckener took command. He took the Graf Zeppelin on many successful flights, including a voyage around the world in 1929.

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Bibliography

1908, Erfahrungen beim Bau von Luftschiffen, Berlin. 1908, Die Eroberung der Luft, Stuttgart.

Further Reading

There are many books on the history of airships, and on Graf von Zeppelin in particular. Of note are: H.Eckener, 1938, Count Zeppelin: The Man and His Work, London.

——1958, My Zeppelins, London.

P.W.Brooks, 1992, Zeppelin: Rigid Airships 1893–1940, London.

T.Nielson, 1955, The Zeppelin Story: The Life of Hugo Eckener, English edn, London (written as a novel in direct speech).

M.Goldsmith, 1931, Zeppelin: A Biography, New York.

W.R.Nitshe, 1977, The Zeppelin Story, New York.

F.Gütschow, 1985, Das Luftschiff, Stuttgart (a record of all the airships).

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