(of automotive engines)

automotive

adj. \/ˌɔːtəˈməʊtɪv\/

1) ( bil) selvdrevet, selvbevegende, motorisert

2) bil-

• we sell automotive engines

vi selger bilmotorer

проект, разрабатываемый с нуля (тоже , что и green field design , но с тем , что связано с транспортными отраслями (eg . automotive, aircraft, engines)

General subject: clean sheet design

compression ratio

<tech.gen> (e.g. of piston engines) ■ Kompressionsverhältnis n ; Verdichtungsgrad m

< edp> (of data; e.g. of zip files) ■ Komprimierungsfaktor m ; Komprimierungsverhältnis n ; Komprimierungsdichte f ; Kompressionsfaktor m ; Packdichte f

<mvhcl.mot> (of automotive engines) ■ Verdichtungsverhältnis n ; Verdichtung f prakt

< plast> ■ Gangtiefenverhältnis n

< plast> (of screw) ■ Kompressionsverhältnis n

cold cleaner

< mvhcl> (e.g. for automotive engines) ■ Kaltreiniger m

cold-solvent cleaner

rare < mvhcl> (e.g. for automotive engines) ■ Kaltreiniger m

compression

<tech.gen> (e.g. of gas, data) ■ Kompression f

<tech.gen> ■ Verdichtung f

< edp> (of data, files; with or w/o information loss; e.g. JPEG, MPEG, ZIP) ■ Datenkomprimierung f ; Datenkompression f ; Komprimierung f ; Kompression f ; Packen n ugs

< mech> (as opp. to tensile force) ■ Druck m

< mech> (reduction in length) ■ Längenabnahme f ; Stauchung f ; Verkürzung f

<mech.eng> ■ Pressung f ; Kompression f

US < mvhcl> (shock absorber) ■ Druckstufe f

<mvhcl.mot> (of A/F mix) ■ Kompression f ; Verdichtung f

pract <mvhcl.mot> (of automotive engines) ■ Verdichtungsverhältnis n ; Verdichtung f prakt

<qualit.mat> (gen.; e.g. in compression test) ■ Stauchung f

degreaser

< mvhcl> (e.g. for automotive engines) ■ Kaltreiniger m

< srfc> (metal surface preparation) ■ Entfettungsmittel n ; Reinigungsmittel n ; Reiniger m prakt

engine power

<mvhcl.mot> (of automotive engines; e.g. 160 kW \@ 5800/min) ■ Leistung f ; Motorleistung f form

muscle

coll <mvhcl.mot> (of automotive engines; e.g. 160 kW \@ 5800/min) ■ Leistung f ; Motorleistung f form

power

<tech.gen> (strength; e.g. of a machine) ■ Stärke f

< econ> (of a country, company; e.g. economic, innovative) ■ Kraft f

<el> ■ Energie f prakt

< energ> (e.g. electric energy) ■ Kraft f

< math> (arithmetics) ■ Potenz f

< math> (set theory) ■ Mächtigkeit f

(pwr) <mvhcl.mot> (of automotive engines; e.g. 160 kW \@ 5800/min) ■ Leistung f ; Motorleistung f form

ISo 13666 < opt> (capacity of a lens tp change direction of wavefronts) ■ Wirkung f DIN EN ISO 1366

(P) < phys> ■ Leistung f (P)

< qualit> (e.g. quality function) ■ Güte f

< qualit> (statistics) ■ Trennschärfe f

vt <tech.gen> ■ antreiben vt

vt <el> ■ speisen vt

pwr

<mvhcl.mot> (of automotive engines; e.g. 160 kW \@ 5800/min) ■ Leistung f ; Motorleistung f form

Otto, Nikolaus August

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 10 June 1832 Holzhausen, Nassau (now in Germany)

d. 26 January 1891 Cologne, Germany

[br]

German engineer, developer of the four-stroke internal combustion engine.

[br]

Otto's involvement in internal combustion engines was first prompted by his interest in Lenoir's coal-gas engine of 1860. He built his first engine in 1861; in 1864, Otto's engine came to the attention of Eugen Langen, who arranged for the capital to set up the world's first engine company, N.A.Otto and Company, in Cologne. In 1867 the Otto- Langen free-piston internal combustion engine was exhibited at the Paris Exposition, where it won the gold medal. The company continued to expand, and five years after the Paris triumph its name was changed to the Gasmotoren Fabrik; amongst Otto's colleagues at this time were Gottlieb Daimler and Wilhelm Maybach .

Otto is most famous for the development of the four-stroke cycle which was to bear his name. He patented his version of this in 1876, although the principle of the four-stroke cycle had been patented by Alphonse Beau de Rochas fourteen years previously; Otto was the first, however, to put the principle into practice with the "Otto Silent Engine". Many thousands of Otto fourstroke engines had already been built by 1886, when a German patent lawyer successfully claimed that Otto had infringed the Beau de Rochas patent, and Otto's patent was declared invalid.

[br]

Principal Honours and Distinctions

Médaille d'or, Paris Exposition 1867 (for the Otto-Langen engine).

Further Reading

1989, History of the Internal Combustion Engine, Detroit: Society of Automotive Engineers.

I.McNeil (ed.), 1990, An Encyclopaedia of the History of Technology, London and New York: Routledge, 306–7.

IMcN

Bollée, Ernest-Sylvain

SUBJECT AREA: Automotive engineering, Mechanical, pneumatic and hydraulic engineering

[br]

b. 19 July 1814 Clefmont (Haute-Marne), France

d. 11 September 1891 Le Mans, France

[br]

French inventor of the rotor-stator wind engine and founder of the Bollée manufacturing industry.

[br]

Ernest-Sylvain Bollée was the founder of an extensive dynasty of bellfounders based in Le Mans and in Orléans. He and his three sons, Amédée (1844–1917), Ernest-Sylvain fils (1846–1917) and Auguste (1847-?), were involved in work and patents on steam-and petrol-driven cars, on wind engines and on hydraulic rams. The presence of the Bollées' car industry in Le Mans was a factor in the establishment of the car races that are held there.

In 1868 Ernest-Sylvain Bollée père took out a patent for a wind engine, which at that time was well established in America and in England. In both these countries, variable-shuttered as well as fixed-blade wind engines were in production and patented, but the Ernest-Sylvain Bollée patent was for a type of wind engine that had not been seen before and is more akin to the water-driven turbine of the Jonval type, with its basic principle being parallel to the "rotor" and "stator". The wind drives through a fixed ring of blades on to a rotating ring that has a slightly greater number of blades. The blades of the fixed ring are curved in the opposite direction to those on the rotating blades and thus the air is directed onto the latter, causing it to rotate at a considerable speed: this is the "rotor". For greater efficiency a cuff of sheet iron can be attached to the "stator", giving a tunnel effect and driving more air at the "rotor". The head of this wind engine is turned to the wind by means of a wind-driven vane mounted in front of the blades. The wind vane adjusts the wind angle to enable the wind engine to run at a constant speed.

The fact that this wind engine was invented by the owner of a brass foundry, with all the gear trains between the wind vane and the head of the tower being of the highest-quality brass and, therefore, small in scale, lay behind its success. Also, it was of prefabricated construction, so that fixed lengths of cast-iron pillar were delivered, complete with twelve treads of cast-iron staircase fixed to the outside and wrought-iron stays. The drive from the wind engine was taken down the inside of the pillar to pumps at ground level.

Whilst the wind engines were being built for wealthy owners or communes, the work of the foundry continued. The three sons joined the family firm as partners and produced several steam-driven vehicles. These vehicles were the work of Amédée père and were l'Obéissante (1873); the Autobus (1880–3), of which some were built in Berlin under licence; the tram Bollée-Dalifol (1876); and the private car La Mancelle (1878). Another important line, in parallel with the pumping mechanism required for the wind engines, was the development of hydraulic rams, following the Montgolfier patent. In accordance with French practice, the firm was split three ways when Ernest-Sylvain Bollée père died. Amédée père inherited the car side of the business, but it is due to Amédée fils (1867– 1926) that the principal developments in car manufacture came into being. He developed the petrol-driven car after the impetus given by his grandfather, his father and his uncle Ernest-Sylvain fils. In 1887 he designed a four-stroke single-cylinder engine, although he also used engines designed by others such as Peugeot. He produced two luxurious saloon cars before putting Torpilleur on the road in 1898; this car competed in the Tour de France in 1899. Whilst designing other cars, Amédée's son Léon (1870–1913) developed the Voiturette, in 1896, and then began general manufacture of small cars on factory lines. The firm ceased work after a merger with the English firm of Morris in 1926. Auguste inherited the Eolienne or wind-engine side of the business; however, attracted to the artistic life, he sold out to Ernest Lebert in 1898 and settled in the Paris of the Impressionists. Lebert developed the wind-engine business and retained the basic "stator-rotor" form with a conventional lattice tower. He remained in Le Mans, carrying on the business of the manufacture of wind engines, pumps and hydraulic machinery, describing himself as a "Civil Engineer".

The hydraulic-ram business fell to Ernest-Sylvain fils and continued to thrive from a solid base of design and production. The foundry in Le Mans is still there but, more importantly, the bell foundry of Dominique Bollée in Saint-Jean-de-Braye in Orléans is still at work casting bells in the old way.

[br]

Further Reading

André Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.

Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).

KM

Clerk, Sir Dugald

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 31 March 1854 Glasgow, Scotland

d. 12 November 1932 Ewhurst, Surrey, England

[br]

Scottish mechanical engineer, inventor of the two-stroke internal combustion engine.

[br]

Clerk began his engineering training at about the age of 15 in the drawing office of H.O.Robinson \& Company, Glasgow, and in his father's works. Meanwhile, he studied at the West of Scotland Technical College and then, from 1871 to 1876, at Anderson's College, Glasgow, and at the Yorkshire College of Science, Leeds. Here he worked under and then became assistant to the distinguished chemist T.E.Thorpe, who set him to work on the fractional distillation of petroleum, which was to be useful to him in his later work. At that time he had intended to become a chemical engineer, but seeing a Lenoir gas engine at work, after his return to Glasgow, turned his main interest to gas and other internal combustion engines. He pursued his investigations first at Thomson, Sterne \& Company (1877–85) and then at Tangyes of Birmingham (1886–88. In 1888 he began a lifelong partnership in Marks and Clerk, consulting engineers and patent agents, in London.

Beginning his work on gas engines in 1876, he achieved two patents in the two following years. In 1878 he made his principal invention, patented in 1881, of an engine working on the two-stroke cycle, in which the piston is powered during each revolution of the crankshaft, instead of alternate revolutions as in the Otto four-stroke cycle. In this engine, Clerk introduced supercharging, or increasing the pressure of the air intake. Many engines of the Clerk type were made but their popularity waned after the patent for the Otto engine expired in 1890. Interest was later revived, particularly for application to large gas engines, but Clerk's engine eventually came into its own where simple, low-power motors are needed, such as in motor cycles or motor mowers.

Clerk's work on the theory and design of gas engines bore fruit in the book The Gas Engine (1886), republished with an extended text in 1909 as The Gas, Petrol and Oil Engine; these and a number of papers in scientific journals won him international renown. During and after the First World War, Clerk widened the scope of his interests and served, often as chairman, on many bodies in the field of science and industry.

[br]

Principal Honours and Distinctions

Knighted 1917; FRS 1908; Royal Society Royal Medal 1924; Royal Society of Arts Alber Medal 1922.

Further Reading

Obituary Notices of Fellows of the Royal Society, no. 2, 1933.

LRD

Maybach, Wilhelm

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 9 February 1846 Heilbronn, Württemberg, Germany

d. 14 December 1929 Stuttgart, Germany

[br]

German engineer and engine designer, inventor of the spray carburettor.

[br]

Orphaned at the age of 10, Maybach was destined to become one of the world's most renowned engine designers. From 1868 he was apprenticed as a draughtsman at the Briiderhaus Engineering Works in Reurlingen, where his talents were recognized by Gottlieb Daimler, who was Manager and Technical Director. Nikolaus Otto had by then developed his atmospheric engine and reorganized his company, Otto \& Langen, into Gasmotorenfabrik Deutz, of which he appointed Daimler Manager. After employment at a machine builders in Karlsruhe, in 1872 Maybach followed Daimler to Deutz where he worked as a partner on the design of high-speed engines: his engines ran at up to 900 rpm, some three times as fast as conventional engines of the time. Maybach made improvements to the timing, carburation and other features. In 1881 Daimler left the Deutz Company and set up on his own as a freelance inventor, moving with his family to Bad Cannstatt; in April 1882 Maybach joined him as Engineer and Designer to set up a partnership to develop lightweight high-speed engines suitable for vehicles. A motor cycle appeared in 1885 and a modified horse-drawn carriage was fitted with a Maybach engine in 1886. Other applications to small boats, fire-engine pumps and small locomotives quickly followed, and the Vee engine of 1890 that was fitted into the French Peugeot automobiles had a profound effect upon the new sport of motor racing. In 1895 Daimler won the first international motor race and the same year Maybach became Technical Director of the Daimler firm. In 1899 Emil Jellinek, Daimler agent in France and also Austro-Hungarian consul, required a car to compete with Panhard and Levassor, who had been victorious in the Paris-Bordeaux race; he wanted more power and a lower centre of gravity, and turned to Maybach with his requirements, the 35 hp Daimler- Simplex of 1901 being the outcome. Its performance and road holding superseded those of all others at the time; it was so successful that Jellinek immediately placed an order for thirty-six cars. His daughter's name was Mercedes, after whom, when the merger of Daimler and Benz came about, the name Mercedes-Benz was adopted.

In his later years, Maybach designed the engine for the Zeppelin airships. He retired from the Daimler Company in 1907.

[br]

Principal Honours and Distinctions

Society of German Engineers Grashof Medal (its highest honour). In addition to numerous medals and titles from technical institutions, Maybach was awarded an honorary doctorate from the Stuttgart Institute of Technology.

Further Reading

F.Schidberger, Gottlieb Daimler, Wilhelm Maybach and Karl Benz, Stuttgart: Daimler Benz AG.

1961, The Annals of Mercedes-Benz Motor Vehicles and Engines, 2nd edn, Stuttgart: Daimler Benz AG.

E.Johnson, 1986, The Dawn of Motoring.

KAB / IMcN

Bosch, Robert August

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 23 September 1861 Albeck, near Ulm, Germany

d. 9 March 1942 Stuttgart, Germany

[br]

German engineer, industrialist and pioneer of internal combustion engine electrical systems.

[br]

Robert was the eighth of twelve children of the landlord of a hotel in the village of Albeck. He wanted to be a botanist and zoologist, but at the age of 18 he was apprenticed as a precision mechanic. He travelled widely in the south of Germany, which is unusual for an apprenticeship. In 1884, he went to the USA, where he found employment with Thomas A. Edison and his colleague, the German electrical engineer Siegmund Bergmann. During this period he became interested and involved in the rights of workers.

In 1886 he set up his own workshop in Stuttgart, having spent a short time with Siemens in England. He built up a sound reputation for quality, but the firm outgrew its capital and in 1892 he had to sack nearly all his employees. Fortunately, among the few that he was able to retain were Arnold Zähringer, who later became Manager, and an apprentice, Gottlieb Harold. These two, under Bosch, were responsible for the development of the low-tension (1897) and the high-tension (1902) magneto. They also developed the Bosch sparking plug, again in 1902. The distributor for multi-cylinder engines followed in 1910. These developments, with a strong automotive bias, were stimulated by Bosch's association with Frederick Simms, an Englishman domiciled in Hamburg, who had become a director of Daimler in Canstatt and had secured the UK patent rights of the Daimler engine. Simms went on to invent, in about 1898, a means of varying ignition timing with low-tension magnetos.

It must be emphasized, as pointed out above, that the invention of neither type of magneto was due to Bosch. Nikolaus Otto introduced a crude low-tension magneto in 1884, but it was not patented in Germany, while the high-tension magneto was invented by Paul Winand, a nephew of Otto's partner Eugen Langen, in 1887, this patent being allowed to lapse in 1890.

Bosch's social views were advanced for his time. He introduced an eight-hour day in 1906 and advocated industrial arbitration and free trade, and in 1932 he wrote a book on the prevention of world economic crises, Die Verhütung künftiger Krisen in der Weltwirtschaft. Other industrialists called him the "Red Bosch" because of his short hours and high wages; he is reputed to have replied, "I do not pay good wages because I have a lot of money, I have a lot of money because I pay good wages." The firm exists to this day as the giant multi-national company Robert Bosch GmbH, with headquarters still in Stuttgart.

[br]

Further Reading

T.Heuss, 1994, Robert Bosch: His Life and Achievements (trans. S.Gillespie and J. Kapczynski), New York: Henry Holt \& Co.

JB

Simms, Frederick

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 1863 Hamburg, Germany d. 1944

[br]

English engineer and entrepreneur who imported the first internal combustion engines into Britain.

[br]

Simms was born of English parents in Hamburg. He met Gottlieb Daimler at an exhibition in Bremen in 1890, where he had gone to exhibit an aerial cableway that he had designed to provide passenger transport over rivers and valleys; in the previous year, he had invented and patented an automatic railway ticket machine, the principle of which is still in use worldwide. He obtained a licence to develop the Daimler engine throughout the British Empire (excluding Canada). He had great trouble in arranging any demonstration of the Daimler engine as authorities were afraid of the risk of fire and explosion with petroleum spirit, particularly at indoor venues. He succeeded eventually in operating a boat with an internal combustion engine between Charing Cross and Westminster piers on the River Thames in 1891. He then rented space under a railway arch at Putney Bridge station for installing Daimler engines in boats. With Sir David Salomans he was responsible for organizing the first motor show in Britain in 1895; four cars were on show. Simms became a director of the main Daimler company, and was a consultant to the Coventry Daimler Company. He was the founder of the Automobile Club of Great Britain and Ireland, a forerunner of the Royal Automobile Club (RAC), as well as the Society of Motor Manufacturers and Traders.

[br]

Further Reading

E.Johnson, 1986, The Dawn of Motoring, London: Mercedes-Benz UK Ltd.

IMcN

Langen, Eugen

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 1839 Germany

d. 1895 Germany

[br]

German engineer and businessmen.

[br]

A sound engineering training combined with an inherited business sense were credentials that Langen put to good use in his association with internal-combustion engines. The sight of a working engine built by N.A. Otto in 1864 convinced Langen that this was a means to provide power in industry. Shortly afterwards, assisted by members of his family, he formed the company N.A.Otto and Cie, Cologne, the world's first engine factory. At the Paris Exhibition of 1867, the new Otto-Langen Atmospheric Gas Engine was awarded a Gold Medal, and in 1870 Crossley Bros of Manchester was appointed sole agent and manufacturer in Britain. Under Langen's guidance, the firm grew, and in 1872 it was renamed Die Gasmotoren Fabrik, employing Gottlieb Daimler and Wilhelm Maybach. Apart from running the business, Langen often played peacemaker when differences arose between Daimler and Otto. The success of the firm, known today as Klockner-Humboldt-Deutz, owed much to Langen's business and technical skills. Langen was a strong supporter of Otto's constant efforts to produce a better engine, and his confidence was justified by the appearance, in 1876, of Otto's four-stroke engine. The two men remained close friends until Otto's death in 1892.

[br]

Further Reading

Friederick Sass, 1962, Geschichte des deutschen Verbrennungsmotorenbaues von 1860 bis 1918, Berlin: Springen Verlag (a detailed account).

Gustav Goldbeck, 1964, Kraft für die Welt: 100 Jahre Klockner-Humboldt-Deutz AG, Dusseldorf (an account of the history and development of Klockner Humboldt).

KAB

Royce, Sir Frederick Henry

SUBJECT AREA: Automotive engineering, Land transport

[br]

b. 27 March 1863 Alwalton, Huntingdonshire, England

d. 22 April 1933 West Wittering, Sussex, England.

[br]

English engineer and industrialist.

[br]

Royce was the younger son of a flour miller. His father's death forced him to earn his own living from the age of 10 selling newspapers, as a post office messenger boy, and in other jobs. At the age of 14, he became an apprentice at the Great Northern Railway's locomotive works, but was unable to complete his apprenticeship due to a shortage of money. He moved to a tool company in Leeds, then in 1882 he became a tester for the London Electric Light \& Power Company and attended classes at the City \& Guilds Technical College. In the same year, the company made him Chief Electrical Engineer for the lighting of the streets of Liverpool.

In 1884, at the age of 21, he founded F.H. Royce \& Co (later called Royce Ltd, from 1894 to 1933) with a capital of £70, manufacturing arc lamps, dynamos and electric cranes. In 1903, he bought a 10 hp Deauville car which proved noisy and unreliable; he therefore designed his own car. By the end of 1903 he had produced a twocylinder engine which ran for many hundreds of hours driving dynamos; on 31 March 1904, a 10 hp Royce car was driven smoothly and silently from the works in Cooke Street, Manchester. This car so impressed Charles S. Rolls, whose London firm were agents for high-class continental cars, that he agreed to take the entire output from the Manchester works. In 1906 they jointly formed Rolls-Royce Ltd and at the end of that year Royce produced the first 40/50 hp Silver Ghost, which remained in production until 1925 when it was replaced by the Phantom and Wraith. The demand for the cars grew so great that in 1908 manufacture was transferred to a new factory in Derby.

In 1911 Royce had a breakdown due to overwork and his lack of attention to taking regular meals. From that time he never returned to the works but continued in charge of design from a drawing office in his home in the south of France and later at West Wittering, Sussex, England. During the First World War he designed the Falcon, Hawk and Condor engines as well as the VI2 Eagle, all of which were liquid-cooled. Later he designed the 36.7-litre Rolls-Royce R engines for the Vickers Supermarine S.6 and S.6B seaplanes which were entered for the Schneider Trophy (which they won in 1929 and 1931, the 5.5 having won in 1927 with a Napier Lion engine) and set a world speed record of 408 mph (657 km/h) in 1931; the 1941 Griffon engine was derived from the R.

Royce was an improver rather than an innovator, though he did invent a silent form of valve gear, a friction-damped slipper flywheel, the Royce carburettor and a spring drive for timing gears. He was a modest man with a remarkable memory who concentrated on perfecting the detail of every component. He married Minnie Punt, but they had no children. A bust of him at the Derby factory is captioned simply "Henry Royce, Mechanic".

[br]

Further Reading

R.Bird, 1995, Rolls Royce Heritage, London: Osprey.

IMcN

clean sheet design

Общая лексика: проект, разрабатываемый с "нуля" (тоже, что и green field design, но с тем, что связано с транспортными отраслями (eg. automotive, aircraft, engines)