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Todd, Leonard Jennett

SUBJECT AREA: Steam and internal combustion engines

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fl. 1885 London, England

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English (?) patentee of steam engines incorporating the uniflow principle.

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In a uniflow system, the steam enters a steam engine cylinder at one end, pushes the pistons along, and exhausts through a ring of ports at the centre of the cylinder that are uncovered by movement of the piston. The piston is returned by steam then entering the other end of the cylinder, moving the piston arrangement back, and again making its exit through the central ports. This gave the thermodynamic advantage of the cylinder ends remaining hot and the centre colder with reheating the ends of the cylinder through compression of the residual steam. The principle was first patented by Jacob Perkins in England in 1827 and was tried in America in 1856.

Little is known about Todd. The addresses given in his patent specifications show that he was living first at South Hornsey and then Stoke Newington, both in Middlesex (now in London). No obituary notices have been traced. He took out a patent in 1885 for a "terminal exhaust engine" and followed this with two more in 1886 and 1887. His aim was to "produce a double acting steam engine which shall work more efficiently, which shall produce and maintain within itself an improved gradation of temperature extending from each of its two Hot Inlets to its common central Cold Outlet". His later patents show the problems he faced with finding suitable valve gears and the compression developing during the return stroke of the piston. It was this last problem, particularly when starting a condensing engine, that probably defeated him through excessive compression pressures. There is some evidence that he hoped to apply his engines to railway locomotives.

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Bibliography

1885, British patent no. 7,301 (terminal exhaust engine). 1886, British patent no. 2,132.

1887, British patent no. 6,666.

Further Reading

R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (provides the fullest discussion of his patents). H.W.Dickinson, 1938, A Short History of the Steam Engine, Cambridge University Press.

J.Stumpf, 1912, The Una-Flow Steam Engine, Munich: R.Oldenbourg.

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Torricelli, Evangelista

SUBJECT AREA: Photography, film and optics

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b. 15 October 1608 Faenza, Italy

d. 25 October 1647 Florence, Italy

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Italian physicist, inventor of the mercury barometer and discoverer of atmospheric pressure.

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Torricelli was the eldest child of a textile artisan. Between 1625 and 1626 he attended the Jesuit school at Faenza, where he showed such outstanding aptitude in mathematics and philosophy that his uncle was persuaded to send him to Rome to a school run by Benedetto Castelli, a mathematician and engineer and a former pupil of Galileo Galilei. Between 1630 and 1641, Torricelli was possibly Secretary to Giovanni Ciampoli, Galileo's friend and protector. In 1641 Torricelli wrote a treatise, De motugravium, amplifying Galileo's doctrine on the motion of projectiles, and Galileo accepted him as a pupil. On Galileo's death in 1642, he was appointed as mathematician and philosopher to the court of Grand Duke Ferdinando II of Tuscany. He remained in Florence until his early death in 1647, possibly from typhoid fever. He wrote a great number of mathematical papers on conic sections, the cycloid, the logarithmic curve and other subjects, which made him well known.

By 1642 Torricelli was producing good lenses for telescopes; he subsequently improved them, and attained near optical perfection. He also constructed a simple microscope with a small glass sphere as a lens. Galileo had looked at problems of raising water with suction pumps, and also with a siphon in 1630. Torricelli brought up the subject again in 1640 and later produced his most important invention, the barometer. He used mercury to fill a glass tube that was sealed at one end and inverted it. He found that the height of mercury in the tube adjusted itself to a well-defined level of about 76 cm (30 in.), higher than the free surface outside. He realized that this must be due to the pressure of the air on the outside surface and predicted that it would fall with increasing altitude. He thus demonstrated the pressure of the atmosphere and the existence of a vacuum on top of the mercury, publishing his findings in 1644. He later noticed that changes in the height of the mercury were related to changes in the weather.

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Bibliography

1641, De motu gravium.

Further Reading

T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.

Chambers Concise Dictionary of Scientists, 1989, Cambridge.

A Dictionary of Scientific Biography, 1976, Vol. XIII, New York: C.Scribner's Sons.

A.Stowers, 1961–2, "Thomas Newcomen's first steam engine 250 years ago and the initial development of steam power", Transactions of the Newcomen Society 34 (provides an account of his mercury barometer).

W.E.Knowles Middleton, 1964, The History of the Barometer, Baltimore.

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Townsend, Matthew

SUBJECT AREA: Textiles

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b. Leicester (?), England

d. after 1867 USA

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English inventor of the latch needle for making seamless hose, and developer of ribbed knitting on circular machines.

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Townsend, who described himself in his first patent as a framework knitter and afterwards as a hosier of Leicester, took out a patent in 1847 for the application of a "machine like that of a point net frame to an ordinary stocking-frame". He described needles and hooks of a peculiar shape which were able to take the work off the knitting machine, reverse the loops and return them again so that ribbed knitting could be made on circular machines. These became popular for knitting stockings which, although not fully fashioned, had sufficient strength to fit the leg. In 1854 he took out a patent for making round hose with heels and toes fashioned on other machines. In yet another patent, in 1856, he described a method of raising looped pile on knitted fabrics for making "terry" towelling fabrics. He could use different coloured yarns in the fabric that were controlled by a Jacquard mechanism. It was in the same year, 1856, in a further patent that he described his tumbler or latch needles as well as the making of figured patterns in knitting on both sides of the fabric with a Jacquard mechanism. The latch needles were self-acting, being made to move up and down or backwards and forwards by the action of cams set in the cylindrical body of the machine. Normally the needle worked in a vertical or inclined position with the previous loop on the shank below the latch. Weft yarn was placed in the hook of the needle. The needle was drawn down between fixed plates which formed a new loop with the weft. At the same time, the original loop already on the shank of the needle moved along the shank and closed the latch so that it could pass over the newly formed loop in the needle hook and fall over the end of the needle incorporating the new loop on its way to make the next row of stitches. The latch needle obviated the need for loop wheels and pressers and thus simplified the knitting mechanism. Townsend's invention was the forerunner of an entirely new generation of knitting machines, but it was many years before its full potential was realized, the bearded needle of William Lee being preferred because the hinge of the latch could not be made as fine as the bearded needle.

Townsend was in the first rank of skilful manufacturers of fancy Leicester hosiery and had a good practical knowledge of the machinery used in his trade. Having patented his needles, he seems not to have succeeded in getting them into very profitable or extensive use, possibly because he fixed the royalty too high. His invention proved to be most useful and profitable in the hands of others, for it gave great impetus to the trade in seamless hose. For various reasons he discontinued his business in Leicester. He emigrated to the USA, where, after some initial setbacks, he began to reap the rewards of his skill.

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Bibliography

1847, British patent no. 11,899 (knitting machine). 1854, British patent no. 1,523 (seamless hose).

1856, British patent no. 1,157 ("terry" towelling fabrics).

1856, British patent no. 1,858 (latch needles and double-sided patterns on fabrics).

Further Reading

F.A.Wells, 1935, The British Hosiery and Knitwear Industry, London (mentions Townsend briefly).

W.Felkin, 1967, History of the Machine-wrought Hosiery and Lace Manufactures, reprint, Newton Abbot (orig. pub. 1867) (a better account of Townsend).

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Wasborough, Matthew

SUBJECT AREA: Steam and internal combustion engines

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b. 1753 Bristol, England

d. 21 October 1781 Bristol, England

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English patentee of an application of the flywheel to create a rotative steam engine.

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A single-cylinder atmospheric steam engine had a power stroke only when the piston descended the cylinder: a means had to be found of returning the piston to its starting position. For rotative engines, this was partially solved by the patent of Matthew Wasborough in 1779. His father was a partner in a Bristol brass-founding and clockmaking business in Narrow Wine Street where he was joined by his son. Wasborough proposed to use some form of ratchet gear to effect the rotary motion and added a flywheel, the first time one was used in a steam engine, "in order to render the motion more regular and uniform". He installed one engine to drive the lathes in the Bristol works and another at James Pickard's flour mill at Snow Hill, Birmingham, where Pickard applied his recently patented crank to it. It was this Wasborough-Pickard engine which posed a threat to Boulton \& Watt trying to develop a rotative engine, for Wasborough built several engines for cornmills in Bristol, woollen mills in Gloucestershire and a block factory at Southampton before his early death. Matthew Boulton was told that Wasborough was "so intent upon the study of engines as to bring a fever on his brain and he dyed in consequence thereof…. How dangerous it is for a man to wade out of his depth" (Jenkins 1936:106).

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Bibliography

1779, British patent no. 1,213 (rotative engine with flywheel).

Further Reading

J.Tann, 1978–9, "Makers of improved Newcomen engines in the late 18th century, and R.A.Buchanan", 1978–9, "Steam and the engineering community in the eighteenth century", Transactions of the Newcomen Society 50 ("Thomas Newcomen. A commemorative symposium") (both papers discuss Wasborough's engines).

R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (examines his patent).

R.Jenkins (ed.), 1936, Collected Papers, 106 (for Matthew Boulton's letter of 30 October 1781).

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Wyatt, John

SUBJECT AREA: Metallurgy, Textiles

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b. April 1700 Thickbroom, Weeford, near Lichfield, England

d. 29 November 1766 Birmingham, England

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English inventor of machines for making files and rolling lead, and co-constructor of a cotton-spinning machine.

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John Wyatt was the eldest son of John and Jane Wyatt, who lived in the small village of Thickbroom in the parish of Weeford, near Lichfield. John the younger was educated at Lichfield school and then worked as a carpenter at Thickbroom till 1730. In 1732 he was in Birmingham, engaged by a man named Heely, a gunbarrel forger, who became bankrupt in 1734. Wyatt had invented a machine for making files and sought the help of Lewis Paul to manufacture this commercially.

The surviving papers of Paul and Wyatt in Birmingham are mostly undated and show a variety of machines with which they were involved. There was a machine for "making lead hard" which had rollers, and "a Gymcrak of some consequence" probably refers to a machine for boring barrels or the file-making machine. Wyatt is said to have been one of the unsuccessful competitors for the erection of London Bridge in 1736. He invented and perfected the compound-lever weighing machine. He had more success with this: after 1744, machines for weighing up to five tons were set up at Birmingham, Chester, Gloucester, Hereford, Lichfield and Liverpool. Road construction, bridge building, hydrostatics, canals, water-powered engines and many other schemes received his attention and it is said that he was employed for a time after 1744 by Matthew Boulton.

It is certain that in April 1735 Paul and Wyatt were working on their spinning machine and Wyatt was making a model of it in London in 1736, giving up his work in Birmingham. The first patent, in 1738, was taken out in the name of Lewis Paul. It is impossible to know which of these two invented what. This first patent covers a wide variety of descriptions of the vital roller drafting to draw out the fibres, and it is unknown which system was actually used. Paul's carding patent of 1748 and his second spinning patent of 1758 show that he moved away from the system and principles upon which Arkwright built his success. Wyatt and Paul's spinning machines were sufficiently promising for a mill to be set up in 1741 at the Upper Priory, Birmingham, that was powered by two asses. Wyatt was the person responsible for constructing the machinery. Edward Cave established another at Northampton powered by water while later Daniel Bourn built yet another at Leominster. Many others were interested too. The Birmingham mill did not work for long and seems to have been given up in 1743. Wyatt was imprisoned for debt in The Fleet in 1742, and when released in 1743 he tried for a time to run the Birmingham mill and possibly the Northampton one. The one at Leominster burned down in 1754, while the Northampton mill was advertised for sale in 1756. This last mill may have been used again in conjunction with the 1758 patent. It was Wyatt whom Daniel Bourn contacted about a grant for spindles for his Leominster mill in 1748, but this seems to have been Wyatt's last association with the spinning venture.

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Further Reading

G.J.French, 1859, The Life and Times of Samuel Crompton, London (French collected many of the Paul and Wyatt papers; these should be read in conjunction with Hills 1970).

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (Hills shows that the rollerdrafting system on this spinning machine worked on the wrong principles). A.P.Wadsworth and J.de L.Mann, 1931, The Cotton Trade and Industrial Lancashire, 1600–1780, Manchester (provides good coverage of the partnership of Paul and Wyatt and of the early mills).

E.Baines, 1835, History of the Cotton Manufacture in Great Britain, London (this publication must be mentioned, although it is now out of date).

W.English, 1969, The Textile Industry, London (a more recent account).

W.A.Benton, "John Wyatt and the weighing of heavy loads", Transactions of the Newcomen Society 9 (for a description of Wyatt's weighing machine).

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