Spring Over Axle

Spring Over Axle

Transport: SOA

Dore (Dorr), Samuel Griswold

SUBJECT AREA: Textiles

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b. USA

d. 1794 England

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American inventor of the first rotary shearing machine.

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To give a smooth surface to cloth such as the old English broadcloth, the nap was raised and then sheared off. Hand-operated shears of enormous size cut the fibres standing proud of the surface while the cloth was laid over a curved table top. Great skill was required to achieve a smooth finish. Various attempts, such as that in 1784 by James Harmer, a clergyman of Sheffield, were made to mechanize the process by placing several pairs of shears in a frame and operating them by cranks, but these were not successful. The first version of a rotary machine was made by Samuel Griswold Dore (sometimes spelt Dorr), an American from Albany, New York. His first frame, patented in 1792 in America, consisted of a wheel of twelve "spring knives" that were fixed like spokes and set at an angle of about 45° to the horizontal. Under this wheel, and on the same axle, rode a second one, carrying four "tangent knives" that lay almost flat upon the cloth. As the two wheels rotated above the cloth's surface, they acted in "the manner of shears". The principle used in Dore's machine is certainly different from that in the later, successful machine of John Lewis. The machine was thought to be too complicated and expensive for American woollen manufacturers and was much better suited to circumstances in the English industry, Dore therefore moved to England. However, in his British patent in 1793, he introduced a different design, which was more like that on which both Lewis's machine and the lawnmower were based, with knives set across the periphery of a hollow cylinder or barrel. Little more was heard of his machine in Britain, possibly because of Dore's death, which is mentioned in his patent of 1794, although it was used in America and France. Dore's son and others improved the machine in America and brought new specifications to England in 1811, when several patents were taken out.

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Bibliography

1792. US patent (rotary shearing machine).

1793. British patent no. 1,945 (rotary shearing machine). 1794. British patent no. 1,985.

Further Reading

D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830s, Oxford (examines Dore's inventions and their transfer to Britain).

Mention of Dore can be found in: J. de L.Mann, 1971, The Cloth Industry in the West of England from 1660 to 1880, Oxford; K.G.Ponting, 1971, The Woollen Industry of South-West England, Bath.

C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press (discusses Dore's inventions).

RLH

Hedley, William

SUBJECT AREA: Land transport, Mining and extraction technology, Railways and locomotives

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b. 13 July 1779 Newburn, Northumberland, England

d. 9 January 1843 Lanchester, Co. Durham, England

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English coal-mine manager, pioneer in the construction and use of steam locomotives.

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The Wylam wagonway passed Newburn, and Hedley, who went to school at Wylam, must have been familiar with this wagonway from childhood. It had been built c.1748 to carry coal from Wylam Colliery to the navigable limit of the Tyne at Lemington. In 1805 Hedley was appointed viewer, or manager, of Wylam Colliery by Christopher Blackett, who had inherited the colliery and wagonway in 1800. Unlike most Tyneside wagonways, the gradient of the Wylam line was insufficient for loaded wagons to run down by gravity and they had to be hauled by horses. Blackett had a locomotive, of the type designed by Richard Trevithick, built at Gateshead as early as 1804 but did not take delivery, probably because his wooden track was not strong enough. In 1808 Blackett and Hedley relaid the wagonway with plate rails of the type promoted by Benjamin Outram, and in 1812, following successful introduction of locomotives at Middleton by John Blenkinsop, Blackett asked Hedley to investigate the feasibility of locomotives at Wylam. The expense of re-laying with rack rails was unwelcome, and Hedley experimented to find out the relationship between the weight of a locomotive and the load it could move relying on its adhesion weight alone. He used first a model test carriage, which survives at the Science Museum, London, and then used a full-sized test carriage laden with weights in varying quantities and propelled by men turning handles. Having apparently satisfied himself on this point, he had a locomotive incorporating the frames and wheels of the test carriage built. The work was done at Wylam by Thomas Waters, who was familiar with the 1804 locomotive, Timothy Hackworth, foreman smith, and Jonathan Forster, enginewright. This locomotive, with cast-iron boiler and single cylinder, was unsatisfactory: Hackworth and Forster then built another locomotive to Hedley's design, with a wrought-iron return-tube boiler, two vertical external cylinders and drive via overhead beams through pinions to the two axles. This locomotive probably came into use in the spring of 1814: it performed well and further examples of the type were built. Their axle loading, however, was too great for the track and from about 1815 each locomotive was mounted on two four-wheeled bogies, the bogie having recently been invented by William Chapman. Hedley eventually left Wylam in 1827 to devote himself to other colliery interests. He supported the construction of the Clarence Railway, opened in 1833, and sent his coal over it in trains hauled by his own locomotives. Two of his Wylam locomotives survive— Puffing Billy at the Science Museum, London, and Wylam Dilly at the Royal Museum of Scotland, Edinburgh—though how much of these is original and how much dates from the period 1827–32, when the Wylam line was re-laid with edge rails and the locomotives reverted to four wheels (with flanges), is a matter of mild controversy.

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Further Reading

P.R.B.Brooks, 1980, William Hedley Locomotive Pioneer, Newcastle upon Tyne: Tyne \& Wear Industrial Monuments Trust (a good recent short biography of Hedley, with bibliography).

R.Young, 1975, Timothy Hackworth and the Locomotive, Shildon: Shildon "Stockton \& Darlington Railway" Silver Jubilee Committee; orig. pub. 1923, London.

C.R.Warn, 1976, Waggonways and Early Railways of Northumberland, Newcastle upon Tyne: Frank Graham.

See also: Stephenson, George

PJGR

Michaux, Pierre

SUBJECT AREA: Land transport

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b. 1813

d. 1883

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French bicycle maker and developer, in partnership with his son Ernest (1849– 89).

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Pierre Michaux has been variously described as a cabinet-maker, a locksmith and a carriage-repairer. He probably combined all these occupations. He had a workshop near the Champs Elysées in Paris in 1861 where he set up a business in the manufacture of bicycles. His machines, which became known as Michaulines, were largely built of wood but had the great advantage over the draisienne that the rider's feet rested on a pair of pedals connected to the axle of the front wheel. In the late 1850s solid rubber tyres were added to the wheels. In 1865 Michaux et Cie built about four hundred Michaulines. By 1866–7 they had developed a new model with a wrought-iron frame and a larger front wheel. This machine was shown at the World Exhibition held in Paris in 1867 and the company received many orders, including one from the invalid Napoleon III. The Prince Imperial also had a Michauline. Late in the 1860s the Olivier brothers invested 100,000 francs in Michaux et Cie, allowing the firm to move to a 2 1/2-acre (1-he-care) factory near the Arc de Triomphe. Soon afterwards, Michaux père accepted a 200,000 franc payment and left the firm, which continued to flourish. In the early 1870s the Olivier brothers were building as many as two hundred machines each day. By 1870 they employed 500 workers using fifty-seven forges. There were in addition about sixty other bicycle makers in Paris and fifteen in provincial France.

The 1867 Michauline had a metal backbone and a lever-shoe brake; the saddle was mounted on a single leaf spring; slotted cranks allowed the effective crank length to be adjusted; and the machine weighed 59 lb (27 kg).

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Further Reading

Science Museum, 1955, Cycles: History and Development, London: HMSO. J.McGunn, 1987, On Tour Bicycle: An Illustrated History of Cycling, London: John Murray.

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