Crossley

Crossley, Joseph

SUBJECT AREA: Textiles

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b. Halifax (?), England

d. September 1868 Halifax (?), England

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English patentee of successful power-driven carpet looms.

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Joseph Crossley was the second son of John, the founder of a carpet-weaving firm in Halifax. He did not figure much in public life for he was essentially a business man. It was under his direct superintendence that most of the extensions at Dean Clough Mill, Halifax, were built, and to a very great degree the successful working of the vast establishment that these mills became, covering fifteen acres, was due to him. In 1864 the firm became a limited-liability company, worth over a million pounds c.1880.

The company's vital patents for the power-driven carpet looms were taken out in his name. The first, in 1850 in the names of Joseph Crossley, George Collier and James Hudson, was for weaving carpets in a manner similar to the way velvet was woven, with the pile warp threads passing over wires. After a couple of picks of weft, a wire was inserted from the side over the main warp threads but under the pile warp threads. These were lowered and another couple of weft shoots bound in the pile warp. The pile was cut with a knife running along a slot in the top of the wire, and then the wire was removed. There was a further patent in 1851, in the name of Joseph Crossley alone, for improvements in the manufacture of Brussels and cut-pile carpets. An interesting part of this patent was the use of a partly coloured warp to make patterns in the carpets. These vital patents gave the Crossley brothers their dominance in carpet weaving; production on their power looms was six times quicker than by hand. Like his brothers, one of whom was Francis Crossley, he was a great benefactor to charities. The brothers built the Crossley Orphan Home at a cost of £50,000 and endowed it with about £3,000 a year.

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Bibliography

1850, British patent no. 13,267 (power-driven carpet loom).

1851, British patent no. 13,474 (improvements in manufacture of Brussels and cut-pile carpets).

Further Reading

J.Hogg (ed.), Fortunes Made in Business, London (contains an account of the firm of John Crossley \& Sons).

RLH

Crossley, Sir Francis

SUBJECT AREA: Textiles

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b. 26 October 1817 Halifax, England

d. 5 January 1872 Belle Vue, Halifax, England

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English developer of a power loom for weaving carpets.

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Francis Crossley was the youngest of three brothers employed in their father's carpet-weaving business in Halifax and who took over the running of the company on their father's death in 1837. Francis seems to have been the one with technical ability, for it was he who saw the possibilities of weaving by power. Growth of the company was rapid through his policy of acquiring patents and then improving them, and it was soon at the forefront of the carpet-manufacturing trade. He had taken out rights on the patents of John Hill of Manchester, but his experiments with Hill's looms for weaving carpets were not successful.

In the spring of 1850 Francis asked a textile inventor, George Collier of Barnsley, to develop a power loom for carpet manufacture. Collier produced a model that was a distinct advance on earlier looms, and Francis engaged him to perfect a power loom for weaving tapestry and Brussels carpets. After a great deal of money had been expended, a patent was taken out in 1850 in the name of his brother, Joseph Crossley, for a loom that could weave velvet as well as carpets and included some of the ideas of the American E.B. Bigelow. This new loom proved to be a great advance on all the earlier ones, and thus brought the Crossleys a great fortune from both sales of patent rights and the production of carpets from their mills, which were soon enlarged.

According to the Dictionary of National Biography, Francis Crossley was Mayor of Halifax in 1849 and 1850, but Hogg gives this position to his elder brother John. In 1852 Francis was returned to Parliament as the Liberal member for Halifax, and in 1859 he became the member for the West Riding. Among his benefactions, in 1855 he gave to the town of Halifax a twelve-acre park that cost £41,300; a statue of him was erected there. In the same year he endowed twenty-one almshouses. In 1863 a baronetcy was conferred upon him in recognition of his commercial and public services, which he continued to perform until his death. In 1870 he gave the London Missionary Society £20,000, their largest single donation up to that time, and another £10,000 to the Congregational Pastor's Retiring Fund. He became ill when on a journey to the Holy Land in 1869, but although he made a partial recovery he grew worse again towards the end of 1871 and died early in the following year. He left £800,000 in his will.

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Principal Honours and Distinctions

Baronet 1863.

Further Reading

Obituary, 1872, The Times 6 January.

Dictionary of National Biography.

J.Hogg (ed.), n.d., Fortunes Made in Business, London (provides an account of Crossley's career).

RLH

Textiles

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Belling, Charles Reginald

SUBJECT AREA: Domestic appliances and interiors

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b. 11 May 1884 Bodmin, Cornwall, England

d. 8 February 1965 while on a cruise

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English electrical engineer best known as the pioneer of the wire-wound clay-former heating element which made possible the efficient domestic electric fire.

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Belling was educated at Burts Grammar School in Lostwithiel, Cornwall, and at Crossley Schools in Halifax, Yorkshire. In 1903 he was apprenticed to Crompton \& Co. at Chelmsford in Essex, the firm that in 1894 offered for sale the earliest electric heaters. These electric radiant panels were intended as heating radiators or cooking hotplates, but were not very successful because, being cast-iron panels into which heating wires had been embedded in enamel, they tended to fracture due to the different rates of thermal expansion of the iron and the enamel. Other designs of electric heaters followed, notably the introduction of large, sausage-shaped carbon filament bulbs fitted into a fire frame and backed by reflectors. This was the idea of H. Dowsing, a collaborator of Crompton, in 1904.

After qualifying in 1906, Belling left Crompton \& Co. and went to work for Ediswan at Ponders End in Hertfordshire. He left in 1912 to set up his own business, which he began in a small shed in Enfield. With a small staff and capital of £450, he took out his first patent for his wire-wound-former electric fire in the same year. The resistance wire, made from nickel-chrome alloy such as that patented in 1906 by A.L. Marsh, was coiled round a clay former. Six such bars were attached to a cast-iron frame with heating control knobs, and the device was marketed as the Standard Belling Fire. Advertised in 1912, the fire was an immediate success and was followed by many other variations. Improvements to the first model included wire safety guards, enamel finishes and a frame ornamented with copper and brass.

Belling turned his attention to hotplates, cookers, immersion heaters, electric irons, water urns and kettles, producing the Modernette Cooker (1919), the multi-parabola fire bar (1921), the plate and dish warmer (1924), the storage heater (1926) and the famous Baby Belling cookers, the first of which appeared in 1929. By 1955 business had developed so well that Belling opened another factory at Burnley, Lancashire. He partly underwrote, for the amount of £1 million, a proposed scientific technical college for the electrical industry at Enfield.

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Further Reading

1985, Dictionary of Business Biography, Butterworth.

G.Jukes, 1963, The Story of Belling, Belling and Co. Ltd (produced by the company in its Golden Jubilee year).

DY

Langen, Eugen

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

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b. 1839 Germany

d. 1895 Germany

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German engineer and businessmen.

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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.

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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

Priestman, William Dent

SUBJECT AREA: Steam and internal combustion engines

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b. 23 August 1847 Sutton, Hull, England

d. 7 September 1936 Hull, England

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English oil engine pioneer.

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William was the second son and one of eleven children of Samuel Priestman, who had moved to Hull after retiring as a corn miller in Kirkstall, Leeds, and who in retirement had become a director of the North Eastern Railway Company. The family were strict Quakers, so William was sent to the Quaker School in Bootham, York. He left school at the age of 17 to start an engineering apprenticeship at the Humber Iron Works, but this company failed so the apprenticeship was continued with the North Eastern Railway, Gateshead. In 1869 he joined the hydraulics department of Sir William Armstrong \& Company, Newcastle upon Tyne, but after a year there his father financed him in business at a small, run down works, the Holderness Foundry, Hull. He was soon joined by his brother, Samuel, their main business being the manufacture of dredging equipment (grabs), cranes and winches. In the late 1870s William became interested in internal combustion engines. He took a sublicence to manufacture petrol engines to the patents of Eugène Etève of Paris from the British licensees, Moll and Dando. These engines operated in a similar manner to the non-compression gas engines of Lenoir. Failure to make the two-stroke version of this engine work satisfactorily forced him to pay royalties to Crossley Bros, the British licensees of the Otto four-stroke patents.

Fear of the dangers of petrol as a fuel, reflected by the associated very high insurance premiums, led William to experiment with the use of lamp oil as an engine fuel. His first of many patents was for a vaporizer. This was in 1885, well before Ackroyd Stuart. What distinguished the Priestman engine was the provision of an air pump which pressurized the fuel tank, outlets at the top and bottom of which led to a fuel atomizer injecting continuously into a vaporizing chamber heated by the exhaust gases. A spring-loaded inlet valve connected the chamber to the atmosphere, with the inlet valve proper between the chamber and the working cylinder being camoperated. A plug valve in the fuel line and a butterfly valve at the inlet to the chamber were operated, via a linkage, by the speed governor; this is believed to be the first use of this method of control. It was found that vaporization was only partly achieved, the higher fractions of the fuel condensing on the cylinder walls. A virtue was made of this as it provided vital lubrication. A starting system had to be provided, this comprising a lamp for preheating the vaporizing chamber and a hand pump for pressurizing the fuel tank.

Engines of 2–10 hp (1.5–7.5 kW) were exhibited to the press in 1886; of these, a vertical engine was installed in a tram car and one of the horizontals in a motor dray. In 1888, engines were shown publicly at the Royal Agricultural Show, while in 1890 two-cylinder vertical marine engines were introduced in sizes from 2 to 10 hp (1.5–7.5 kW), and later double-acting ones up to some 60 hp (45 kW). First, clutch and gearbox reversing was used, but reversing propellers were fitted later (Priestman patent of 1892). In the same year a factory was established in Philadelphia, USA, where engines in the range 5–20 hp (3.7–15 kW) were made. Construction was radically different from that of the previous ones, the bosses of the twin flywheels acting as crank discs with the main bearings on the outside.

On independent test in 1892, a Priestman engine achieved a full-load brake thermal efficiency of some 14 per cent, a very creditable figure for a compression ratio limited to under 3:1 by detonation problems. However, efficiency at low loads fell off seriously owing to the throttle governing, and the engines were heavy, complex and expensive compared with the competition.

Decline in sales of dredging equipment and bad debts forced the firm into insolvency in 1895 and receivers took over. A new company was formed, the brothers being excluded. However, they were able to attend board meetings, but to exert no influence. Engine activities ceased in about 1904 after over 1,000 engines had been made. It is probable that the Quaker ethics of the brothers were out of place in a business that was becoming increasingly cut-throat. William spent the rest of his long life serving others.

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Further Reading

C.Lyle Cummins, 1976, Internal Fire, Carnot Press.

C.Lyle Cummins and J.D.Priestman, 1985, "William Dent Priestman, oil engine pioneer and inventor: his engine patents 1885–1901", Proceedings of the Institution of

Mechanical Engineers 199:133.

Anthony Harcombe, 1977, "Priestman's oil engine", Stationary Engine Magazine 42 (August).

JB

Volk, Magnus

SUBJECT AREA: Electricity, Land transport, Railways and locomotives

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b. 19 October 1851 Brighton, England

d. 20 May 1937 Brighton, England

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English pioneer in the use of electric power; built the first electric railway in the British Isles to operate a regular service.

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Volk was the son of a German immigrant clockmaker and continued the business with his mother after his father died in 1869, although when he married in 1879 his profession was described as "electrician". He installed Brighton's first telephone the same year and in 1880 he installed electric lighting in his own house, using a Siemens Brothers dynamo (see Siemens, Dr Ernst Werner von) driven by a Crossley gas engine. This was probably one of the first half-dozen such installations in Britain. Magnus Volk \& Co. became noted electrical manufacturers and contractors, and, inter alia, installed electric light in Brighton Pavilion in place of gas.

By 1883 Volk had moved house. He had kept the dynamo and gas engine used to light his previous house, and he also had available an electric motor from a cancelled order. After approaching the town clerk of Brighton, he was given permission for a limited period to build and operate a 2 ft (61 cm) gauge electric railway along the foreshore. Using the electrical equipment he already had, Volk built the line, a quarter of a mile (400 m) long, in eight weeks. The car was built by a local coachbuilder, with the motor under the seat; electric current at 50 volts was drawn from one running rail and returned through the other.

The railway was opened on 4 August 1883. It operated regularly for several months and then, permission to run it having been renewed, it was rebuilt for the 1884 season to 2 ft 9 in. (84 cm) gauge, with improved equipment. Despite storm damage from time to time, Volk's Electric Railway, extended in length, has become an enduring feature of Brighton's sea front. In 1887 Volk made an electric dogcart, and an electric van which he built for the Sultan of Turkey was probably the first motor vehicle built in Britain for export. In 1896 he opened the Brighton \& Rottingdean Seashore Electric Tramroad, with very wide-gauge track laid between the high-and low-tide lines, and a long-legged, multi-wheel car to run upon it, through the water if necessary. This lasted only until 1901, however. Volk subsequently became an early enthusiast for aircraft.

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Further Reading

C.Volk, 1971, Magnus Volk of Brighton, Chichester: Phillimore (his life and career as described by his son).

C.E.Lee, 1979, "The birth of electric traction", Railway Magazine (May).

PJGR