mechanical transport vehicle

mechanical transport vehicle

Military: M/TV, MTV

автомобиль

1) General subject: auto, autocar, automobile, bus, cabriolet, car, chariot, machine, motor, motor car (легковой), motor vehicle (любого типа), motor-car, to be at the wheel (и т. п.), vehicle

2) Aviation: car (легковой)

3) American: lizzie (любой), wheels

4) Military: (грузовой) lorry, mechanical transport vehicle, (грузовой) truck, wagon

5) Engineering: motor truck (грузовой), truck (грузовой)

6) Construction: (легковой) car

7) Mathematics: van

8) British English: lorry (грузовой), motor lorry (грузовой), motor van (грузовой), motorcar (легковой)

9) Automobile industry: mechanical vehicle, mechanically propelled vehicle, motor transport vehicle, motorcar

10) Jargon: Lena, boat, chug wagon (презрительно), crutch, egg-crate, gas buggy, humdinger, meat grinder, straggle-buggy, zoom buggy, haddock (I've gone and locked me keys in the haddock.), set of wheels, sheen, trans, Leaping Lena, bus (личный), (любой) crate (грузовик, автобус и др.), fliv, go-cart, hard top, heap (особенно устаревший), short (особенно небольшой спортивный автомобиль иностранного производства), smoke wagon, tin can (чаще всего старый "форд"), torpedo (обычно мощный), wheeler

11) Advertising: Rd vehicle, road vehicle

12) Makarov: automotive vehicle, transport

автотранспортное средство

1) General subject: vehicle

2) Military: mechanical transport vehicle

3) Engineering: vehicular

4) Economy: vehicle (автомобиль, вагон, тележка)

5) Business: motor vehicle

автотранспорт

1) General subject: automobile transportation, mechanic transport, motor, motor service, motor transport, motor-service, motorized transport

2) Military: mechanical transport, transport operations

3) Engineering: automotive transport

4) Forestry: lorry transport

5) Sociology: motor traffic

6) Ecology: vehicles

7) Oilfield: motor-vehicle transport

Cugnot, Nicolas Joseph

SUBJECT AREA: Land transport

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b. 26 February 1725 Void, Meuse, France

d. 2 October 1804 Paris, France

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French military engineer.

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Cugnot studied military engineering in Germany and returned to Paris by 1769, having left the service of Austria, where he taught military engineering. It was while serving in the army of Les Pays Bas that he invented a "fusil" or carbine, which was adopted by the Archduke Charles and put into service in the Uhlan regiments.

In 1769 he invented a fardier à feu, also called a cabriolet, a steam-driven, heavy three-wheeled vehicle. This tractor, designed to pull artillery pieces, was driven through its single front wheel by two single-acting cylinders which rotated the wheel through ratchets. The ratchet pawls were carried on levers pivoted on the wheel axis, coupled to the piston rods by connecting rods. Links from pivots half-way along the levers connected upwards to a rocking cross-beam fixed on the end of the steam cock so as to pass steam alternately from the undersized boiler to the two cylinders. The tractor had to be stopped whenever it needed stoking, and its maximum speed was 4 mph (6.4 km/h). The difficulty of controlling it led to its early demolition of a wall, after which it was locked away and eventually preserved in the Conservatoire des Arts et Métiers in Paris. This was, in fact, Cugnot's second vehicle: the first model was presented to the due de Choiseul et Guiberuval, who asked for a more robust and powerful machine which was built at the Arsenal at the expense of the state and tested in 1771. Cugnot was granted a pension of 600 livres. After the revolution he tried in vain in 1798 and 1801 to interest Bonaparte in this invention.

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Bibliography

Cugnot published a number of military textbooks, including: 1766, Eléments de l'art militaire.

1769, Fortification et campagne théorie et practice.

1778, Theory of Fortification.

Further Reading

D.J.H.Day, 1980, Engines.

A.F.Burstall, 1963, A History of Mechanical Engineering. 1933, Dictionnaire de biographie française.

IMcN

Ma Jun (Ma Chun)

SUBJECT AREA: Land transport, Mechanical, pneumatic and hydraulic engineering, Textiles

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fl. 220–265 China

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Chinese engineer and inventor.

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Ma Jun was active at the court of Emperor Ming Ti and achieved several useful inventions in a number of fields. First, he made improvements in the silk-weaving loom by simplifying the heddles and treadles, thereby enabling a greater variety of patterns to be woven. Second, he constructed a "south pointing carriage", which was a two-wheeled cart with a train of gears arranged so that whichever direction the vehicle turned, the figure mounted on top of it would always point south. This may seem trivial, but the carriage may have had useful applications, possibly in surveying. During the period 227 to 239, Ma Jun also made a square-pallet chain pump, usually attributed to Bi Lan (186 AD), Loyang, that was used to irrigate parks and gardens. Other inventions included rotary ballistae and mechanical toys that were worked by water power, such as puppets operated by horizontal jack wheels.

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Further Reading

J.Needham, Science and Civilisation in China, Cambridge: Cambridge University Press, 1965, Vol. IV, 2, pp. 39–42, 286–8, 295, 303, 346, 350, 524, 532–3.

LRD

Moulton, Alexander

SUBJECT AREA: Automotive engineering, Land transport

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b. 9 April 1920 Stratford-on-Avon

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English inventor of vehicle suspension systems and the Moulton bicycle.

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He spent his childhood at The Hall in Bradfordon-Avon. He was educated at Marlborough College, and in 1937 was apprenticed to the Sentinel Steam Wagon Company of Shrewsbury. About that same time he went to King's College, Cambridge, where he took the Mechanical Sciences Tripos. It was then wartime, and he did research on aero-engines at the Bristol Aeroplane Company, where he became Personal Assistant to Sir Roy Fedden. He left Bristol's in 1945 to join his family firm, Spencer \& Moulton, of which he eventually became Technical Director and built up the Research Department. In 1948 he invented his first suspension unit, the "Flexitor", in which an inner shaft and an outer shell were separated by an annular rubber body which was bonded to both.

In 1848 his great-grandfather had founded the family firm in an old woollen mill, to manufacture vulcanized rubber products under Charles Goodyear's patent. The firm remained a family business with Spencer's, consultants in railway engineering, until 1956 when it was sold to the Avon Rubber Company. He then formed Moulton Developments to continue his work on vehicle suspensions in the stables attached to The Hall. Sponsored by the British Motor Corporation (BMC) and the Dunlop Rubber Company, he invented a rubber cone spring in 1951 which was later used in the BMC Mini (see Issigonis, Sir Alexander Arnold Constantine): by 1994 over 4 million Minis had been fitted with these springs, made by Dunlop. In 1954 he patented the Hydrolastic suspension system, in which all four wheels were independently sprung with combined rubber springs and damper assembly, the weight being supported by fluid under pressure, and the wheels on each side being interconnected, front to rear. In 1962 he formed Moulton Bicycles Ltd, having designed an improved bicycle system for adult use. The conventional bicycle frame was replaced by a flat-sided oval steel tube F-frame on a novel rubber front and rear suspension, with the wheel size reduced to 41 cm (16 in.) with high-pressure tyres. Raleigh Industries Ltd having refused his offer to produce the Moulton Bicycle under licence, he set up his own factory on his estate, producing 25,000 bicycles between 1963 and 1966. In 1967 he sold out to Raleigh and set up as Bicycle Consultants Ltd while continuing the suspension development of Moulton Developments Ltd. In the 1970s the combined firms employed some forty staff, nearly 50 per cent of whom were graduates.

He won the Queen's Award for Industry in 1967 for technical innovation in Hydrolastic car suspension and the Moulton Bicycle. Since that time he has continued his innovative work on suspensions and the bicycle. In 1983 he introduced the AM bicycle series of very sophisticated space-frame design with suspension and 43 cm (17 in.) wheels; this machine holds the world speed record fully formed at 82 km/h (51 mph). The current Rover 100 and MGF use his Hydragas interconnected suspension. By 1994 over 7 million cars had been fitted with Moulton suspensions. He has won many design awards and prizes, and has been awarded three honorary doctorates of engineering. He is active in engineering and design education.

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Principal Honours and Distinctions

Queen's Award for Industry 1967; CBE; RDI. Fellow of the Royal Academy of Engineering.

Further Reading

P.R.Whitfield, 1975, Creativity in Industry, London: Penguin Books.

IMcN

Siemens, Dr Ernst Werner von

SUBJECT AREA: Electricity, Land transport, Railways and locomotives

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b. 13 December 1816 Lenthe, near Hanover, Germany

d. 6 December 1892 Berlin, Germany

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German pioneer of the dynamo, builder of the first electric railway.

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Werner von Siemens was the eldest of a large family and after the early death of his parents took his place at its head. He served in the Prussian artillery, being commissioned in 1839, after which he devoted himself to the study of chemistry and physics. In 1847 Siemens and J.G. Halske formed a company, Telegraphen-Bauanstalt von Siemens und Halske, to manufacture a dial telegraph which they had developed from an earlier instrument produced by Charles Wheatstone. In 1848 Siemens obtained his discharge from the army and he and Halske constructed the first long-distance telegraph line on the European continent, between Berlin and Frankfurt am Main.

Werner von Siemens's younger brother, William Siemens, had settled in Britain in 1844 and was appointed agent for the Siemens \& Halske company in 1851. Later, an English subsidiary company was formed, known from 1865 as Siemens Brothers. It specialized in manufacturing and laying submarine telegraph cables: the specialist cable-laying ship Faraday, launched for the purpose in 1874, was the prototype of later cable ships and in 1874–5 laid the first cable to run direct from the British Isles to the USA. In charge of Siemens Brothers was another brother, Carl, who had earlier established a telegraph network in Russia.

In 1866 Werner von Siemens demonstrated the principle of the dynamo in Germany, but it took until 1878 to develop dynamos and electric motors to the point at which they could be produced commercially. The following year, 1879, Werner von Siemens built the first electric railway, and operated it at the Berlin Trades Exhibition. It comprised an oval line, 300 m (985 it) long, with a track gauge of 1 m (3 ft 3 1/2 in.); upon this a small locomotive hauled three small passenger coaches. The locomotive drew current at 150 volts from a third rail between the running rails, through which it was returned. In four months, more than 80,000 passengers were carried. The railway was subsequently demonstrated in Brussels, and in London, in 1881. That same year Siemens built a permanent electric tramway, 1 1/2 miles (2 1/2 km) long, on the outskirts of Berlin. In 1882 in Berlin he tried out a railless electric vehicle which drew electricity from a two-wire overhead line: this was the ancestor of the trolleybus.

In the British Isles, an Act of Parliament was obtained in 1880 for the Giant's Causeway Railway in Ireland with powers to work it by "animal, mechanical or electrical power"; although Siemens Brothers were electrical engineers to the company, of which William Siemens was a director, delays in construction were to mean that the first railway in the British Isles to operate regular services by electricity was that of Magnus Volk.

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Principal Honours and Distinctions

Honorary doctorate, Berlin University 1860. Ennobled by Kaiser Friedrich III 1880, after which he became known as von Siemens.

Further Reading

S.von Weiher, 1972, "The Siemens brothers, pioneers of the electrical age in Europe", Transactions of the Newcomen Society 45 (describes the Siemens's careers). C.E.Lee, 1979, The birth of electric traction', Railway Magazine (May) (describes Werner Siemens's introduction of the electric railway).

Transactions of the Newcomen Society (1979) 50: 82–3 (describes Siemens's and Halske's early electric telegraph instruments).

Transactions of the Newcomen Society (1961) 33: 93 (describes the railless electric vehicle).

PJGR

Gurney, Sir Goldsworthy

SUBJECT AREA: Automotive engineering, Land transport, Mining and extraction technology, Steam and internal combustion engines

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b. 14 February 1793 Treator, near Padstow, Cornwall, England

d. 28 February 1875 Reeds, near Bude, Cornwall, England

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English pioneer of steam road transport.

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Educated at Truro Grammar School, he then studied under Dr Avery at Wadebridge to become a doctor of medicine. He settled as a surgeon in Wadebridge, spending his leisure time in building an organ and in the study of chemistry and mechanical science. He married Elizabeth Symons in 1814, and in 1820 moved with his wife to London. He delivered a course of lectures at the Surrey Institution on the elements of chemical science, attended by, amongst others, the young Michael Faraday. While there, Gurney made his first invention, the oxyhydrogen blowpipe. For this he received the Gold Medal of the Society of Arts. He experimented with lime and magnesia for the production of an illuminant for lighthouses with some success. He invented a musical instrument of glasses played like a piano.

In 1823 he started experiments related to steam and locomotion which necessitated taking a partner in to his medical practice, from which he resigned shortly after. His objective was to produce a steam-driven vehicle to run on common roads. His invention of the steam-jet of blast greatly improved the performance of the steam engine. In 1827 he took his steam carriage to Cyfarthfa at the request of Mr Crawshaw, and while there applied his steam-jet to the blast furnaces, greatly improving their performance in the manufacture of iron. Much of the success of George Stephenson's steam engine, the Rocket was due to Gurney's steam blast.

In July 1829 Gurney made a historic trip with his road locomotive. This was from London to Bath and back, which was accomplished at a speed of 18 mph (29 km/h) and was made at the instigation of the Quartermaster-General of the Army. So successful was the carriage that Sir Charles Dance started to run a regular service with it between Gloucester and Cheltenham. This ran for three months without accident, until Parliament introduced prohibitive taxation on all self-propelled vehicles. A House of Commons committee proposed that these should be abolished as inhibiting progress, but this was not done. Sir Goldsworthy petitioned Parliament on the harm being done to him, but nothing was done and the coming of the railways put the matter beyond consideration. He devoted his time to finding other uses for the steam-jet: it was used for extinguishing fires in coal-mines, some of which had been burning for many years; he developed a stove for the production of gas from oil and other fatty substances, intended for lighthouses; he was responsible for the heating and the lighting of both the old and the new Houses of Parliament. His evidence after a colliery explosion resulted in an Act of Parliament requiring all mines to have two shafts. He was knighted in 1863, the same year that he suffered a stroke which incapacitated him. He retired to his house at Reeds, near Bude, where he was looked after by his daughter, Anna.

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Principal Honours and Distinctions

Knighted 1863. Society of Arts Gold Medal.

IMcN

Albone, Daniel

SUBJECT AREA: Agricultural and food technology, Land transport

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b. c.1860 Biggleswade, Bedfordshire, England

d. 1906 England

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English engineer who developed and manufactured the first commercially successful lightweight tractor.

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The son of a market gardener, Albone's interest lay in mechanics, and by 1880 he had established his own business as a cycle maker and repairer. His inventive mind led to a number of patents relating to bicycle design, but his commercial success was particularly assisted by his achievements in cycle racing. From this early start he diversified his business, designing and supplying, amongst other things, axle bearings for the Great Northern Railway, and also building motor cycles and several cars. It is possible that he began working on tractors as early as 1896. Certainly by 1902 he had built his first prototype, to the three-wheeled design that was to remain in later production models. Weighing only 30 cwt, yet capable of pulling two binders or a two-furrow plough, Albone's Ivel tractor was ahead of anything in its time, and its power-to-weight ratio was to be unrivalled for almost a decade. Albone's commercial success was not entirely due to the mechanical tractor's superiority, but owed a considerable amount to his ability as a showman and demonstrator. He held two working demonstrations a month in the village of Biggleswade in Bedfordshire, where the tractors were made. The tractor was named after the river Ivel, which flowed through the village. The Ivel tractor gained twenty-six gold and silver medals at agricultural shows between 1902 and 1906, and was a significant contributor to Britain's position as the world's largest exporter of tractors between 1904 and 1914. Albone tried other forms of his tractor to increase its sales. He built a fire engine, and also an armoured vehicle, but failed to impress the War Office with its potential.

Albone died at the age of 46. His tractor continued in production but remained essentially unimproved, and the company finally lost its sales to other designs, particularly those of American origin.

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Further Reading

Detailed contemporary accounts of tractor development occur in the British periodical Implement and Machinery Review. Accounts of the Ivel appear in "The Trials of Agricultural Motors", Journal of the Royal Agricultural Society of England (1910), pp. 179–99. A series of general histories by Michael Williams have been published by Blandfords, of which Classic Farm Tractors (1984) includes an entry on the Ivel.

AP