horizontal+milling+machine

универсальный фрезерный станок

1) Engineering: universal mill

2) Automation: (консольно-) universal (horizontal) mill, universal milling machine

фрезерный станок с горизонтальным и вертикальным шпинделями

Automation: horizontal-vertical milling machine

Bohr- und Fräswerk

n <wz.masch> ■ horizontal boring and milling machine

Tischbohrwerk

Tischbohrwerk n MECH table-type horizontal boring, drilling and milling machine

Waagerechtbohr- und -fräswerk

n

horizontal boring and milling machine

brytning

mining, break, breaking, caving, cutting out, winning, work, working; diffraction

brytning i dagbrott: open pit mining

brytning med ramförtimring; square set mining

brytning med smal front; shortwall mining

automatisk brytning; automated mining

blockrasbrytning; block caving, rock caving, undercut caving

blockskivbrytning; block method of top slicing

blockstrossbrytning; block method of top-slicing

dagbrytning; open mining, strip mining, surface method, surface mining, surface working

dagbrytning med skoplastning; electric shovel mining

flötsbrytning; working of a vein

försöksbrytning; prospecting operation

gruvbrytning; mineral working

gråbergsbrytning; dead rock mining

horisontell skivstrossbrytning; horizontal slicing, horizontal top-slicing

horisontell takbrytning; flat-back stope

horisontell takbrytning med igensättning; horizontal cut-and-fill

hydraulisk brytning; hydraulic mining, hydraulicking

igensättningsbrytning; cut-and-fill

kammarbrytning; panel working with caving-system, pillar mining

kraterbrytning; glory-hole mining, glory-hole stoping, milling

linjebrytning; longwall face, longwall method, longwall mining, longwall system

magasinsbrytning; shrinkage stoping

malmbrytning; metal mining

mekaniserad brytning; machine mining

nedåtgående horisontell skivbrytning; descending horizontal slicing

ortbrytning med kvarlämnade pelare; abandoned pillars

pallbrytning; bench stoping, glory-hole mining

pelarbrytning; panel system, panel work, pillar drawing

pelarbrytning med stora pelare; long pillar work

rasbrytning; caving stoping, ore caving

rovbrytning; careless mining

rum- och pelarbrytning; barrier pillar, barrier system, heading-and-stall method, pillar-and-room method, stall and pillar work

selektiv brytning; selective mining

skifferbrytning; slate mining

skivbrytning; slicing, top slicing

skivpallbrytning; sublevel benching, sublevel stoping

skivrasbrytning; slicing and caving, sublevel caving, sublevel slicing

skivstrossbrytning; top slice stoping, top slicing, top stoping

slumpartad brytning; coyoting

snedbrytning; crosscut mining

sned skivstrossbrytning; inclined top-slicing

sned takbrytning med igensättning; filled rill-stopes, incline cut-and-fill

stollbrytning; adit cut mining, adit level, tunnel mining

strossbrytning; breast stoping, shortwall

takbrytning; backbreak, top slicing

takbrytning med vågräta tak; flat-back method

takbrytning med vågräta tak och igensättning; flat-back cut and fill

takstrossbrytning; filled stope, filled stross

tvärbrytning; cross working

underjordsbrytning; underground mining, underground stoping, underground winning, underground working

underjordisk brytning; deep mining

Evans, Oliver

SUBJECT AREA: Agricultural and food technology

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b. 13 September 1755 Newport, Delaware, USA

d. 15 April 1819 New York, USA

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American millwright and inventor of the first automatic corn mill.

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He was the fifth child of Charles and Ann Stalcrop Evans, and by the age of 15 he had four sisters and seven brothers. Nothing is known of his schooling, but at the age of 17 he was apprenticed to a Newport wheelwright and wagon-maker. At 19 he was enrolled in a Delaware Militia Company in the Revolutionary War but did not see active service. About this time he invented a machine for bending and cutting off the wires in textile carding combs. In July 1782, with his younger brother, Joseph, he moved to Tuckahoe on the eastern shore of the Delaware River, where he had the basic idea of the automatic flour mill. In July 1782, with his elder brothers John and Theophilus, he bought part of his father's Newport farm, on Red Clay Creek, and planned to build a mill there. In 1793 he married Sarah Tomlinson, daughter of a Delaware farmer, and joined his brothers at Red Clay Creek. He worked there for some seven years on his automatic mill, from about 1783 to 1790.

His system for the automatic flour mill consisted of bucket elevators to raise the grain, a horizontal screw conveyor, other conveying devices and a "hopper boy" to cool and dry the meal before gathering it into a hopper feeding the bolting cylinder. Together these components formed the automatic process, from incoming wheat to outgoing flour packed in barrels. At that time the idea of such automation had not been applied to any manufacturing process in America. The mill opened, on a non-automatic cycle, in 1785. In January 1786 Evans applied to the Delaware legislature for a twenty-five-year patent, which was granted on 30 January 1787 although there was much opposition from the Quaker millers of Wilmington and elsewhere. He also applied for patents in Pennsylvania, Maryland and New Hampshire. In May 1789 he went to see the mill of the four Ellicot brothers, near Baltimore, where he was impressed by the design of a horizontal screw conveyor by Jonathan Ellicot and exchanged the rights to his own elevator for those of this machine. After six years' work on his automatic mill, it was completed in 1790. In the autumn of that year a miller in Brandywine ordered a set of Evans's machinery, which set the trend toward its general adoption. A model of it was shown in the Market Street shop window of Robert Leslie, a watch-and clockmaker in Philadelphia, who also took it to England but was unsuccessful in selling the idea there.

In 1790 the Federal Plant Laws were passed; Evans's patent was the third to come within the new legislation. A detailed description with a plate was published in a Philadelphia newspaper in January 1791, the first of a proposed series, but the paper closed and the series came to nothing. His brother Joseph went on a series of sales trips, with the result that some machinery of Evans's design was adopted. By 1792 over one hundred mills had been equipped with Evans's machinery, the millers paying a royalty of $40 for each pair of millstones in use. The series of articles that had been cut short formed the basis of Evans's The Young Millwright and Miller's Guide, published first in 1795 after Evans had moved to Philadelphia to set up a store selling milling supplies; it was 440 pages long and ran to fifteen editions between 1795 and 1860.

Evans was fairly successful as a merchant. He patented a method of making millstones as well as a means of packing flour in barrels, the latter having a disc pressed down by a toggle-joint arrangement. In 1801 he started to build a steam carriage. He rejected the idea of a steam wheel and of a low-pressure or atmospheric engine. By 1803 his first engine was running at his store, driving a screw-mill working on plaster of Paris for making millstones. The engine had a 6 in. (15 cm) diameter cylinder with a stroke of 18 in. (45 cm) and also drove twelve saws mounted in a frame and cutting marble slabs at a rate of 100 ft (30 m) in twelve hours. He was granted a patent in the spring of 1804. He became involved in a number of lawsuits following the extension of his patent, particularly as he increased the licence fee, sometimes as much as sixfold. The case of Evans v. Samuel Robinson, which Evans won, became famous and was one of these. Patent Right Oppression Exposed, or Knavery Detected, a 200-page book with poems and prose included, was published soon after this case and was probably written by Oliver Evans. The steam engine patent was also extended for a further seven years, but in this case the licence fee was to remain at a fixed level. Evans anticipated Edison in his proposal for an "Experimental Company" or "Mechanical Bureau" with a capital of thirty shares of $100 each. It came to nothing, however, as there were no takers. His first wife, Sarah, died in 1816 and he remarried, to Hetty Ward, the daughter of a New York innkeeper. He was buried in the Bowery, on Lower Manhattan; the church was sold in 1854 and again in 1890, and when no relative claimed his body he was reburied in an unmarked grave in Trinity Cemetery, 57th Street, Broadway.

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Further Reading

E.S.Ferguson, 1980, Oliver Evans: Inventive Genius of the American Industrial Revolution, Hagley Museum.

G.Bathe and D.Bathe, 1935, Oliver Evans: Chronicle of Early American Engineering, Philadelphia, Pa.

IMcN