Twenty Locomotive Men

Crampton, Thomas Russell

SUBJECT AREA: Land transport, Railways and locomotives, Telecommunications

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b. 6 August 1816 Broadstairs, Kent, England

d. 19 April 1888 London, England

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English engineer, pioneer of submarine electric telegraphy and inventor of the Crampton locomotive.

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After private education and an engineering apprenticeship, Crampton worked under Marc Brunel, Daniel Gooch and the Rennie brothers before setting up as a civil engineer in 1848. His developing ideas on locomotive design were expressed through a series of five patents taken out between 1842 and 1849, each making a multiplicity of claims. The most typical feature of the Crampton locomotive, however, was a single pair of driving wheels set to the rear of the firebox. This meant they could be of large diameter, while the centre of gravity of the locomotive remained low, for the boiler barrel, though large, had only small carrying-wheels beneath it. The cylinders were approximately midway along the boiler and were outside the frames, as was the valve gear. The result was a steady-riding locomotive which neither pitched about a central driving axle nor hunted from side to side, as did other contemporary locomotives, and its working parts were unusually accessible for maintenance. However, adhesive weight was limited and the long wheelbase tended to damage track. Locomotives of this type were soon superseded on British railways, although they lasted much longer in Germany and France. Locomotives built to the later patents incorporated a long, coupled wheelbase with drive through an intermediate crankshaft, but they mostly had only short lives. In 1851 Crampton, with associates, laid the first successful submarine electric telegraph cable. The previous year the brothers Jacob and John Brett had laid a cable, comprising a copper wire insulated with gutta-percha, beneath the English Channel from Dover to Cap Gris Nez: signals were passed but within a few hours the cable failed. Crampton joined the Bretts' company, put up half the capital needed for another attempt, and designed a much stronger cable. Four gutta-percha-insulated copper wires were twisted together, surrounded by tarred hemp and armoured by galvanized iron wires; this cable was successful.

Crampton was also active in railway civil engineering and in water and gas engineering, and c. 1882 he invented a hydraulic tunnel-boring machine intended for a Channel tunnel.

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Principal Honours and Distinctions

Vice-President, Institution of Mechanical Engineers. Officier de la Légion d'Honneur (France).

Bibliography

1842, British patent no. 9,261.

1845. British patent no. 10,854.

1846. British patent no. 11,349.

1847. British patent no. 11,760.

1849, British patent no. 12,627.

1885, British patent no. 14,021.

Further Reading

M.Sharman, 1933, The Crampton Locomotive, Swindon: M.Sharman; P.C.Dewhurst, 1956–7, "The Crampton locomotive", Parts I and II, Transactions of the Newcomen Society 30:99 (the most important recent publications on Crampton's locomotives).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allen. J.Kieve, 1973, The Electric Telegraph, Newton Abbot: David \& Charles, 102–4.

R.B.Matkin, 1979, "Thomas Crampton: Man of Kent", Industrial Past 6 (2).

PJGR

Worsdell, Thomas William

SUBJECT AREA: Land transport, Railways and locomotives

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b. 14 January 1838 Liverpool, England

d. 28 June 1916 Arnside, Westmorland, England

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English locomotive engineer, pioneer of the use of two-cylinder compound locomotives in Britain.

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T.W.Worsdell was the son of Nathaniel Worsdell. After varied training, which included some time in the drawing office of the London \& North Western Railway's Crewe Works, he moved to the Pennsylvania Railroad, USA, in 1865 and shortly became Master Mechanic in charge of its locomotive workshops in Altoona. In 1871, however, he accepted an invitation from F.W. Webb to return to Crewe as Works Manager: it was while he was there that Webb produced his first compound locomotive by rebuilding an earlier simple.

In 1881 T.W.Worsdell was appointed Locomotive Superintendent of the Great Eastern Railway. Working with August von Borries, who was Chief Mechanical Engineer of the Hannover Division of the Prussian State Railways, he developed a two-cylinder compound derived from the work of J.T.A. Mallet. Von Borries produced his compound 2–4–0 in 1880, Worsdell followed with a 4–4–0 in 1884; the restricted British loading gauge necessitated substitution of inside cylinders for the outside cylinders used by von Borries, particularly the large low-pressure one. T.W.Worsdell's compounds were on the whole successful and many were built, particularly on the North Eastern Railway, to which he moved as Locomotive Superintendent in 1885. There, in 1888, he started to build, uniquely, two-cylinder compound "single driver" 4–2–2s: one of them was recorded as reaching 86 mph (138 km/h). He also equipped his locomotives with a large side-window cab, which gave enginemen more protection from the elements than was usual in Britain at that time and was no doubt appreciated in the harsh winter climate of northeast England. The idea for the cab probably originated from his American experience. When T.W.Worsdell retired from the North Eastern Railway in 1890 he was succeeded by his younger brother, Wilson Worsdell, who in 1899 introduced the first 4– 6–0s intended for passenger trains in England.

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Further Reading

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 15 (biography).

E.L.Ahrons, 1927, The British Steam Railway Locomotive 1825–1925, London: The Locomotive Publishing Co., pp. 253–5 (describes his locomotives). C.Fryer, 1990, Experiments with Steam, Patrick Stephens, Ch. 7.

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Churchward, George Jackson

SUBJECT AREA: Land transport, Railways and locomotives

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b. 31 January 1857 Stoke Gabriel, Devon, England

d. 19 December 1933 Swindon, Wiltshire, England

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English mechanical engineer who developed for the Great Western Railway a range of steam locomotives of the most advanced design of its time.

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Churchward was articled to the Locomotive Superintendent of the South Devon Railway in 1873, and when the South Devon was absorbed by the Great Western Railway in 1876 he moved to the latter's Swindon works. There he rose by successive promotions to become Works Manager in 1896, and in 1897 Chief Assistant to William Dean, who was Locomotive Carriage and Wagon Superintendent, in which capacity Churchward was allowed extensive freedom of action. Churchward eventually succeeded Dean in 1902: his title changed to Chief Mechanical Engineer in 1916.

In locomotive design, Churchward adopted the flat-topped firebox invented by A.J.Belpaire of the Belgian State Railways and added a tapered barrel to improve circulation of water between the barrel and the firebox legs. He designed valves with a longer stroke and a greater lap than usual, to achieve full opening to exhaust. Passenger-train weights had been increasing rapidly, and Churchward produced his first 4–6– 0 express locomotive in 1902. However, he was still developing the details—he had a flair for selecting good engineering practices—and to aid his development work Churchward installed at Swindon in 1904 a stationary testing plant for locomotives. This was the first of its kind in Britain and was based on the work of Professor W.F.M.Goss, who had installed the first such plant at Purdue University, USA, in 1891. For comparison with his own locomotives Churchward obtained from France three 4–4–2 compound locomotives of the type developed by A. de Glehn and G. du Bousquet. He decided against compounding, but he did perpetuate many of the details of the French locomotives, notably the divided drive between the first and second pairs of driving wheels, when he introduced his four-cylinder 4–6–0 (the Star class) in 1907. He built a lone 4–6–2, the Great Bear, in 1908: the wheel arrangement enabled it to have a wide firebox, but the type was not perpetuated because Welsh coal suited narrow grates and 4–6–0 locomotives were adequate for the traffic. After Churchward retired in 1921 his successor, C.B.Collett, was to enlarge the Star class into the Castle class and then the King class, both 4–6–0s, which lasted almost as long as steam locomotives survived in service. In Church ward's time, however, the Great Western Railway was the first in Britain to adopt six-coupled locomotives on a large scale for passenger trains in place of four-coupled locomotives. The 4–6–0 classes, however, were but the most celebrated of a whole range of standard locomotives of advanced design for all types of traffic and shared between them many standardized components, particularly boilers, cylinders and valve gear.

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Further Reading

H.C.B.Rogers, 1975, G.J.Churchward. A Locomotive Biography, London: George Allen \& Unwin (a full-length account of Churchward and his locomotives, and their influence on subsequent locomotive development).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 20 (a good brief account).

Sir William Stanier, 1955, "George Jackson Churchward", Transactions of the Newcomen

Society 30 (a unique insight into Churchward and his work, from the informed viewpoint of his former subordinate who had risen to become Chief Mechanical Engineer of the London, Midland \& Scottish Railway).

See also: Gresley, Sir Herbert Nigel; Stanier, Sir William Arthur

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Adams, William Bridges

SUBJECT AREA: Land transport, Railways and locomotives

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b. 1797 Madeley, Staffordshire, England

d. 23 July 1872 Broadstairs, Kent, England

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English inventory particularly of road and rail vehicles and their equipment.

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Ill health forced Adams to live abroad when he was a young man and when he returned to England in the early 1830s he became a partner in his father's firm of coachbuilders. Coaches during that period were steered by a centrally pivoted front axle, which meant that the front wheels had to swing beneath the body and were therefore made smaller than the rear wheels. Adams considered this design defective and invented equirotal coaches, built by his firm, in which the front and rear wheels were of equal diameter and the coach body was articulated midway along its length so that the front part pivoted. He also applied himself to improving vehicles for railways, which were developing rapidly then.

In 1843 he opened his own engineering works, Fairfield Works in north London (he was not related to his contemporary William Adams, who was appointed Locomotive Superintendent to the North London Railway in 1854). In 1847 he and James Samuel, Engineer to the Eastern Counties Railway, built for that line a small steam inspection car, the Express, which was light enough to be lifted off the track. The following year Adams built a broad-gauge steam railcar, the Fairfield, for the Bristol \& Exeter Railway at the insistance of the line's Engineer, C.H.Gregory: self-propelled and passenger-carrying, this was the first railcar. Adams developed the concept further into a light locomotive that could haul two or three separate carriages, and light locomotives built both by his own firm and by other noted builders came into vogue for a decade or more.

In 1847 Adams also built eight-wheeled coaches for the Eastern Counties Railway that were larger and more spacious than most others of the day: each in effect comprised two four-wheeled coaches articulated together, with wheels that were allowed limited side-play. He also realized the necessity for improvements to railway track, the weakest point of which was the joints between the rails, whose adjoining ends were normally held in common chairs. Adams invented the fishplated joint, first used by the Eastern Counties Railway in 1849 and subsequently used almost universally.

Adams was a prolific inventor. Most important of his later inventions was the radial axle, which was first applied to the leading and trailing wheels of a 2–4–2 tank engine, the White Raven, built in 1863; Adams's radial axle was the forerunner of all later radial axles. However, the sprung tyres with which White Raven was also fitted (an elastic steel hoop was interposed between wheel centre and tyre) were not perpetuated. His inventiveness was not restricted to engineering: in matters of dress, his adoption, perhaps invention, of the turn-down collar at a time when men conventionally wore standup collars had lasting effect.

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Bibliography

Adams took out some thirty five British patents, including one for the fishplate in 1847. He wrote copiously, as journalist and author: his most important book was English Pleasure Carriages (1837), a detailed description of coachbuilding, together with ideas for railway vehicles and track. The 1971 reprint (Bath: Adams \& Dart) has a biographical introduction by Jack Simmons.

Further Reading

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 1. See also England, George.

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Johnson, Samuel Waite

SUBJECT AREA: Land transport, Railways and locomotives

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b. 14 October 1831 Bramley, Leeds, England

d. 14 January 1912 Nottingham, England

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English locomotive engineer, designer of Midland Railway's successful compound locomotives.

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After an apprenticeship with E.B.Wilson, Leeds, Johnson worked successively for the Great Northern, Manchester Sheffield \& Lincolnshire, Edinburgh \& Glasgow and Great Eastern Railways before being appointed Locomotive Superintendent of the Midland Railway in 1873. There he remained for the rest of his working life, becoming notable for well-designed, well-finished locomotives. Of these, the most famous were his 4–2–2 express locomotives, introduced in 1887. The use of a single pair of driving-wheels was made possible at this late date by application of steam sanding gear (invented in 1886 by F. Holt) to enable them to haul heavy trains without slipping. In 1901, almost at the end of his career, he produced the first Midland compound 4–4–0, with a single internal high-pressure cylinder and two external low-pressure ones. The system had been devised by W.M.Smith, working on the North Eastern Railway under Wilson Worsdell. These locomotives were successful enough to be developed and built in quantity by Johnson's successors and were adopted as a standard locomotive by the London Midland \& Scottish Railway after the grouping of 1923.

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Principal Honours and Distinctions

President, Institution of Mechanical Engineers 1898.

Further Reading

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Ian Allan, Ch. 11 (describes Johnson's career).

E.L.Ahrons, 1927, The British Steam Railway Locomotive 1825–1925, The Locomotive Publishing Co. (describes Johnson's locomotives).

PJGR

Webb, Francis William

SUBJECT AREA: Land transport, Railways and locomotives, Steam and internal combustion engines

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b. 21 May 1836 Tixall, Staffordshire, England

d. 4 June 1906 Bournemouth, England

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English locomotive engineer who pioneered compound locomotives in Britain and the use of steel for boilers.

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Webb was a pupil at Crewe Works, London \& North Western Railway (LNWR), under F. Trevithick (son of Richard Trevithick), and was subsequently placed in charge of the works under Trevithick's successor, J.Ramsbottom. After a brief spell away from the LNWR, Webb returned in 1871 and was made Chief Mechanical Engineer, a post he held until his retirement in 1904.

Webb's initial designs included the highly successful "Precedent" or "Jumbo" class 2– 4–0, from which the example Hardwicke (now preserved by the National Railway Museum, York) achieved an average speed of 67.2 mph (108.1 km/h) between Crewe and Carlisle in 1895. His 0–6–0 "coal engines" were straightforward and cheap and were built in large numbers. In 1879 Webb, having noted the introduction of compound locomotives in France by J.T.A. Mallet, rebuilt an existing 2–2–2 locomotive as a two-cylinder compound. Then in 1882, seeking fuel economy and the suppression of coupling rods, he produced a compound locomotive to his own design, the 2–2, 2–0 Experiment, in which two outside high-pressure cylinders drove the rear driving-wheels, and a single inside large-diameter low-pressure cylinder drove the front driving-wheels. This was followed by a large number of compound locomotives: three successive classes of 2–2, 2–0s; some 2–2, 2–2s; some 4–4–0s; and some 0–8–0s for goods traffic. Although these were capable of good performance, their overall value was controversial: Webb, who was notoriously autocratic, may never have been fully informed of their defects, and after his retirement most were quickly scrapped. Webb made many other innovations during his career, one of the most important being the construction of boilers from steel rather than wrought iron.

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Further Reading

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 14 (describes Webb's career).

E.L.Ahrons, 1927, The British Steam Railway Locomotive 2825–1925, London: The Locomotive Publishing Co., Chs 18 and 20 (includes a critique of Webb's compound locomotives).

See also: Bousquet, Gaston du; Gresley, Sir Herbert Nigel; Joy, David; Worsdell, Thomas William

PJGR

Aspinall, Sir John Audley Frederick

SUBJECT AREA: Electricity, Land transport, Railways and locomotives

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b. 25 August 1851 Liverpool, England

d. 19 January 1937 Woking, England

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English mechanical engineer, pioneer of the automatic vacuum brake for railway trains and of railway electrification.

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Aspinall's father was a QC, Recorder of Liverpool, and Aspinall himself became a pupil at Crewe Works of the London \& North Western Railway, eventually under F.W. Webb. In 1875 he was appointed Manager of the works at Inchicore, Great Southern \& Western Railway, Ireland. While he was there, some of the trains were equipped, on trial, with continuous brakes of the non-automatic vacuum type. Aspinall modified these to make them automatic, i.e. if the train divided, brakes throughout both parts would be applied automatically. Aspinall vacuum brakes were subsequently adopted by the important Great Northern, Lancashire \& Yorkshire, and London \& North Western Railways.

In 1883, aged only 32, Aspinall was appointed Locomotive Superintendent of the Great Southern \& Western Railway, but in 1886 he moved in the same capacity to the Lancashire \& Yorkshire Railway, where his first task was to fit out the new works at Horwich. The first locomotive was completed there in 1889, to his design. In 1899 he introduced a 4–4–2, the largest express locomotive in Britain at the time, some of which were fitted with smokebox superheaters to Aspinall's design.

Unusually for an engineer, in 1892 Aspinall was appointed General Manager of the Lancashire \& Yorkshire Railway. He electrified the Liverpool-Southport line in 1904 at 600 volts DC with a third rail; this was an early example of main-line electrification, for it extended beyond the Liverpool suburban area. He also experimented with 3,500 volt DC overhead electrification of the Bury-Holcombe Brook branch in 1913, but converted this to 1,200 volts DC third rail to conform with the Manchester-Bury line when this was electrified in 1915. In 1918 he was made a director of the Lancashire \& Yorkshire Railway.

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Principal Honours and Distinctions

Knighted 1917. President, Institution of Mechanical Engineers 1909. President, Institution of Civil Engineers 1918.

Further Reading

H.A.V.Bulleid, 1967, The Aspinall Era, Shepperton: Ian Allan (provides a good account of Aspinall and his life's work).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 19 (a good brief account).

See also: Gresley, Sir Herbert Nigel; Schmidt, Wilhelm; Westinghouse, George

PJGR

Gooch, Sir Daniel

SUBJECT AREA: Civil engineering, Land transport, Railways and locomotives, Telecommunications

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b. 24 August 1816 Bedlington, Northumberland, England

d. 15 October 1889 Clewer Park, Berkshire, England

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English engineer, first locomotive superintendent of the Great Western Railway and pioneer of transatlantic electric telegraphy.

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Gooch gained experience as a pupil with several successive engineering firms, including Vulcan Foundry and Robert Stephenson \& Co. In 1837 he was engaged by I.K. Brunel, who was then building the Great Western Railway (GWR) to the broad gauge of 7 ft 1/4 in. (2.14 m), to take charge of the railway's locomotive department. He was just 21 years old. The initial locomotive stock comprised several locomotives built to such extreme specifications laid down by Brunel that they were virtually unworkable, and two 2–2–2 locomotives, North Star and Morning Star, which had been built by Robert Stephenson \& Co. but left on the builder's hands. These latter were reliable and were perpetuated. An enlarged version, the "Fire Fly" class, was designed by Gooch and built in quantity: Gooch was an early proponent of standardization. His highly successful 4–2–2 Iron Duke of 1847 became the prototype of GWR express locomotives for the next forty-five years, until the railway's last broad-gauge sections were narrowed. Meanwhile Gooch had been largely responsible for establishing Swindon Works, opened in 1843. In 1862 he designed 2–4–0 condensing tank locomotives to work the first urban underground railway, the Metropolitan Railway in London. Gooch retired in 1864 but was then instrumental in arranging for Brunel's immense steamship Great Eastern to be used to lay the first transatlantic electric telegraph cable: he was on board when the cable was successfully laid in 1866. He had been elected Member of Parliament for Cricklade (which constituency included Swindon) in 1865, and the same year he had accepted an invitation to become Chairman of the Great Western Railway Company, which was in financial difficulties; he rescued it from near bankruptcy and remained Chairman until shortly before his death. The greatest engineering work undertaken during his chairmanship was the boring of the Severn Tunnel.

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Principal Honours and Distinctions

Knighted 1866 (on completion of transatlantic telegraph).

Bibliography

1972, Sir Daniel Gooch, Memoirs and Diary, ed. R.B.Wilson, with introd. and notes, Newton Abbot: David \& Charles.

Further Reading

A.Platt, 1987, The Life and Times of Daniel Gooch, Gloucester: Alan Sutton (puts Gooch's career into context).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Ian Allan (contains a good short biography).

J.Kieve, 1973, The Electric Telegraph, Newton Abbot: David \& Charles, pp. 112–5.

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Worsdell, Nathaniel

SUBJECT AREA: Land transport, Railways and locomotives

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b. 10 October 1809 London, England

d. 24 July 1886 Birkenhead, England

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English coachbuilder and inventor.

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Worsdell \& Son, Coachbuilders, was set up in Liverpool by Thomas Clarke Worsdell and his son Nathaniel in 1827. They were introduced to George Stephenson and built the tender for Rocket. More importantly, they designed and built for the Liverpool \& Manchester Railway coaches of a type comprising three coach bodies, of contemporary road-coach pattern, mounted together on a rail-wagon underframe. This became the prototype for the conventional, compartment railway coach. Nathaniel Worsdell subsequently became Carriage Superintendent of the Grand Junction Railway and patented the first mail-bag-exchange apparatus early in 1838. The terms he required for its use by the Post Office were too steep, however, and the first bagexchange apparatus of the type subsequently used extensively on British railways was designed later the same year by John Ramsey, a senior Post Office clerk.

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Further Reading

J.Marshall, 1978, A Biographical Dictionary of Railway Engineers, Newton Abbot: David \& Charles (the article on Worsdell is derived from family records).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan.

P.J.G.Ransom, 1990, The Victorian Railway and How It Evolved, London: Heinemann.

PJGR

Roberts, Richard

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Textiles

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b. 22 April 1789 Carreghova, Llanymynech, Montgomeryshire, Wales

d. 11 March 1864 London, England

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Welsh mechanical engineer and inventor.

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Richard Roberts was the son of a shoemaker and tollkeeper and received only an elementary education at the village school. At the age of 10 his interest in mechanics was stimulated when he was allowed by the Curate, the Revd Griffith Howell, to use his lathe and other tools. As a young man Roberts acquired a considerable local reputation for his mechanical skills, but these were exercised only in his spare time. For many years he worked in the local limestone quarries, until at the age of 20 he obtained employment as a pattern-maker in Staffordshire. In the next few years he worked as a mechanic in Liverpool, Manchester and Salford before moving in 1814 to London, where he obtained employment with Henry Maudslay. In 1816 he set up on his own account in Manchester. He soon established a reputation there for gear-cutting and other general engineering work, especially for the textile industry, and by 1821 he was employing about twelve men. He built machine tools mainly for his own use, including, in 1817, one of the first planing machines.

One of his first inventions was a gas meter, but his first patent was obtained in 1822 for improvements in looms. His most important contribution to textile technology was his invention of the self-acting spinning mule, patented in 1825. The normal fourteen-year term of this patent was extended in 1839 by a further seven years. Between 1826 and 1828 Roberts paid several visits to Alsace, France, arranging cottonspinning machinery for a new factory at Mulhouse. By 1826 he had become a partner in the firm of Sharp Brothers, the company then becoming Sharp, Roberts \& Co. The firm continued to build textile machinery, and in the 1830s it built locomotive engines for the newly created railways and made one experimental steam-carriage for use on roads. The partnership was dissolved in 1843, the Sharps establishing a new works to continue locomotive building while Roberts retained the existing factory, known as the Globe Works, where he soon after took as partners R.G.Dobinson and Benjamin Fothergill (1802–79). This partnership was dissolved c. 1851, and Roberts continued in business on his own for a few years before moving to London as a consulting engineer.

During the 1840s and 1850s Roberts produced many new inventions in a variety of fields, including machine tools, clocks and watches, textile machinery, pumps and ships. One of these was a machine controlled by a punched-card system similar to the Jacquard loom for punching rivet holes in plates. This was used in the construction of the Conway and Menai Straits tubular bridges. Roberts was granted twenty-six patents, many of which, before the Patent Law Amendment Act of 1852, covered more than one invention; there were still other inventions he did not patent. He made his contribution to the discussion which led up to the 1852 Act by publishing, in 1830 and 1833, pamphlets suggesting reform of the Patent Law.

In the early 1820s Roberts helped to establish the Manchester Mechanics' Institute, and in 1823 he was elected a member of the Literary and Philosophical Society of Manchester. He frequently contributed to their proceedings and in 1861 he was made an Honorary Member. He was elected a Member of the Institution of Civil Engineers in 1838. From 1838 to 1843 he served as a councillor of the then-new Municipal Borough of Manchester. In his final years, without the assistance of business partners, Roberts suffered financial difficulties, and at the time of his death a fund for his aid was being raised.

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Principal Honours and Distinctions

Member, Institution of Civil Engineers 1838.

Further Reading

There is no full-length biography of Richard Roberts but the best account is H.W.Dickinson, 1945–7, "Richard Roberts, his life and inventions", Transactions of the Newcomen Society 25:123–37.

W.H.Chaloner, 1968–9, "New light on Richard Roberts, textile engineer (1789–1864)", Transactions of the Newcomen Society 41:27–44.

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