special machine tool

tool

أَدَاة \ appliance: a piece of equipment (esp. electrical or mechanical. device: a clever plan; any machine, instrument, or piece of equipment that is planned for a special purpose: Have you a device for separating the cream from milk?. gadget: a small device or instrument: A tin-opener is a useful gadget. implement: a tool, esp. one used for farming. instrument: a tool or device with which sth. is done (esp. by doctors, engineers, skilled men, etc.): A knife is a sharp instrument. Electrical and scientific instruments are made there. tool: any simple instrument such as a hammer. \ See Also آلة (آلة)‏

специальный станок

1) process-specific machine

2) special machine tool

специальный станок

special, customized machine tool, single-purpose machine tool, specially outfitted machine tool, job-dedicated machine, nonstock machine, process-specialized machine, purpose-built machine, single-purpose machine, special design machine, typical machine

специализированный станок

machine-tool specialty, specialized machine tool, custom-build machine, dedicated special machine, nonstock machine, process-specialized machine, product-oriented machine, single-purpose machine, special design machine, tailored machine, targeted machine, typical machine

специальный станок

special, specially outfitted machine tool

специальный станок

1) Engineering: customized machine tool, special

2) Mechanics: single-purpose machine tool

3) Automation: job-dedicated machine, nonstock machine, process-specialized machine, purpose-built machine, purpose-designed machine, single-purpose machine, special design machine, special-purpose machine, specialist machine, specialized machine, specially outfitted machine tool, specialty machine, typical machine, process-specific machine

4) Makarov: specially outlined machine tool

специализированный станок

1) Engineering: product-oriented machine, purpose-designed machine, single-purpose machine, single-purpose machine tool, special-purpose machine, specialized machine tool, tailored machine

2) Mechanics: machine-tool specialty

3) Automation: custom-build machine, customized machine, dedicated special machine, nonstock machine, process-specialized machine, special design machine, specialist machine, specialized machine, specialty machine, targeted machine, typical machine, process-specific machine

herramienta

f.

1 tool.

2 tools.

* * *

herramienta

► nombre femenino

1 tool

* * *

noun f.

tool

* * *

SF

1) [gen] tool

pl herramientas set of tools

herramienta de filo — edge tool

herramienta de mano — hand tool

herramienta mecánica — power tool

2) hum [de toro] horns pl ; (=dientes) teeth pl

* * *

femenino tool

* * *

= instrument, tool.

Ex. The Rowell observation scale for the measurement of reading attitude by teachers was included as a fourth instrument.

Ex. Prior to the 1970s UDC was frequently to be found in large card indexes in special libraries and sometimes to be encountered in abstracting and indexing tools.

----

* barra de herramientas = toolbar.

* caja de herramientas = toolbox [tool box], utility toolbox.

* herramienta bibliográfica = bibliographical tool.

* herramienta de apoyo = enabler.

* herramienta de autoedición = authoring aid, authoring tool.

* herramienta de autoedición para páginas web = Web authoring tool.

* herramienta de ayuda a la escritura = writing aid.

* herramienta de ayuda a la lectura = reading aid.

* herramienta de búsqueda = search aid, finding aid, search tool.

* herramienta de desarrollo = development tool.

* herramienta de diagnóstico = diagnostic tool.

* herramienta de evaluación = assessment tool.

* herramienta de evalución = evaluation tool.

* herramienta de gestión = management tool, managerial tool.

* herramienta de indización = indexing tool.

* herramienta de integración = integrator.

* herramienta de investigación = research tool.

* herramienta de jardín = garden tool.

* herramienta de la profesión = tool of the trade.

* herramienta de navegación = navigation tool.

* herramienta de programación = scripting tool.

* herramienta de recuperación de información = retrieval tool.

* herramienta de referencia = reference tool.

* herramienta de trabajo = tool.

* herramienta de uso de Internet = Internet appliance.

* herramienta educativa = educational aid.

* herramienta eléctrica = power tool.

* herramienta informática = computer tool.

* herramienta manual = hand tool.

* herramienta mecánica = machine tool.

* herramienta para el jardín = garden tool.

* herramienta para el uso de la información = information appliance.

* herramienta para especialistas = specialist tool.

* herramienta para la gestión de la información = information-managing tool.

* herramienta para profesionales = specialist tool, professional tool.

* herramienta pedagógica = pedagogical tool.

* herramienta profesional = specialist tool, professional tool.

* herramientas = toolbox [tool box], gear.

* herramientas de ayuda = helper utility.

* herramientas de ayuda para la búsqueda = searching aid.

* herramientas de desarrollo = toolkit.

* herramientas de navegación = navigation facilities.

* herramientas para la selección = selection tools.

* juego de herramientas = toolkit.

* menú de herramientas para trabajar con gráficos = tool palette.

* * *

femenino tool

* * *

= instrument, tool.

Ex: The Rowell observation scale for the measurement of reading attitude by teachers was included as a fourth instrument.

Ex: Prior to the 1970s UDC was frequently to be found in large card indexes in special libraries and sometimes to be encountered in abstracting and indexing tools.

* barra de herramientas = toolbar.

* caja de herramientas = toolbox [tool box], utility toolbox.

* herramienta bibliográfica = bibliographical tool.

* herramienta de apoyo = enabler.

* herramienta de autoedición = authoring aid, authoring tool.

* herramienta de autoedición para páginas web = Web authoring tool.

* herramienta de ayuda a la escritura = writing aid.

* herramienta de ayuda a la lectura = reading aid.

* herramienta de búsqueda = search aid, finding aid, search tool.

* herramienta de desarrollo = development tool.

* herramienta de diagnóstico = diagnostic tool.

* herramienta de evaluación = assessment tool.

* herramienta de evalución = evaluation tool.

* herramienta de gestión = management tool, managerial tool.

* herramienta de indización = indexing tool.

* herramienta de integración = integrator.

* herramienta de investigación = research tool.

* herramienta de jardín = garden tool.

* herramienta de la profesión = tool of the trade.

* herramienta de navegación = navigation tool.

* herramienta de programación = scripting tool.

* herramienta de recuperación de información = retrieval tool.

* herramienta de referencia = reference tool.

* herramienta de trabajo = tool.

* herramienta de uso de Internet = Internet appliance.

* herramienta educativa = educational aid.

* herramienta eléctrica = power tool.

* herramienta informática = computer tool.

* herramienta manual = hand tool.

* herramienta mecánica = machine tool.

* herramienta para el jardín = garden tool.

* herramienta para el uso de la información = information appliance.

* herramienta para especialistas = specialist tool.

* herramienta para la gestión de la información = information-managing tool.

* herramienta para profesionales = specialist tool, professional tool.

* herramienta pedagógica = pedagogical tool.

* herramienta profesional = specialist tool, professional tool.

* herramientas = toolbox [tool box], gear.

* herramientas de ayuda = helper utility.

* herramientas de ayuda para la búsqueda = searching aid.

* herramientas de desarrollo = toolkit.

* herramientas de navegación = navigation facilities.

* herramientas para la selección = selection tools.

* juego de herramientas = toolkit.

* menú de herramientas para trabajar con gráficos = tool palette.

* * *

herramienta

feminine

tool

entregar las herramientas ( Chi fam euf); to give up the ghost ( colloq euph)

herramienta de edición de página web ( Inf) web-authoring tool

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herramienta sustantivo femenino
tool
herramienta f Téc tool
caja de herramientas, toolbox
' herramienta' also found in these entries:
Spanish:
habilidad
- llana
- llave
- pico
- puño
- utensilio
- desarmador
- hacha
- imprescindible
- lima
- manejar
- mazo
- palo
English:
brace
- drill
- file
- hammer
- implement
- level
- pick
- power tool
- punch
- rake
- spade
- spanner
- tool

* * *

herramienta nf

tool

Comp

Informát herramienta de autor authoring tool

* * *

herramienta

f tool

* * *

herramienta nf

: tool

* * *

herramienta n tool

агрегатный станок

1) Engineering: multihead machine, multispindle auto

2) Mechanics: unit-type machine tool

3) Automation: modular machine, modular-type machine, multispindle automatic, special unit machine, standard-unit-type machine, station-type machine, synchronous transfer machine, unit construction machine, unit-built machine, unit-type machine

4) Makarov: "building-block" machine, "building-block" machine tool, transfer machine

специализированный станок

product-oriented machine, purpose-designed machine, single-purpose machine, special-purpose machine, tailored machine, single-purpose machine tool, specialized machine tool

Heald, James Nichols

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 21 September 1864 Barre, Massachusetts, USA

d. 7 May 1931 Worcester, Massachusetts, USA

[br]

American mechanical engineer and machine-tool manufacturer who concentrated on grinding machines.

[br]

James N.Heald was the son of Leander S.Heald and was educated at the Worcester Polytechnic Institute, graduating with the degree of Bachelor of Science in 1884. He then joined the firm that had been established by his grandfather, Stephen Heald, in 1826; this was a machine shop and foundry then known as S.Heald \& Son. When his grandfather died in 1888, James Heald took over the management of the business, which then became known as L.S.Heald \& Son. He concentrated on the manufacture of grinding machines and in 1903 bought out his father's interest and organized the Heald Machine Company. James Heald then began the development of a series of grinding machines designed to meet the needs of the expanding automobile industry. Special machines were produced for grinding piston rings making use of the recently invented magnetic chuck, and for cylinder bores he introduced the planetary grinder. Heald was a member of the National Machine Tool Builders' Association and served as its Treasurer and on its Board of Directors. He was elected a member of the American Society of Mechanical Engineers in 1917 and was also a member of the Society of Automotive Engineers.

[br]

Further Reading

Robert S.Woodbury, 1959, History of the Grinding Machine, Cambridge, Mass (describes his grinding machines).

L.T.C.Rolt, 1965, Tools for the Job, London; repub. 1986 (describes his grinding machines).

RTS

агрегатный станок

multispindle automatic, unit-type machine tool, modular-type machine, multihead machine, special unit machine, standard-unit-type machine, station-type machine, synchronous transfer machine, unit-built machine, unit construction machine

специализированный

1. special purpose

специализированная тележка — specialty truck

специализированная больница — special hospital

специализированный ЭВМ — special purpose computer

специализированный станок — machine-tool specialty

специализированное грузовое судно — special freighter

2. dedicated

специализированное ЗУ — dedicated memory

специализированная память — dedicated memory

специализированный канал — dedicated channel

специализированный тестер — dedicated tester

специализированная система — dedicated system

3. tailored

специализированная система ЧПУ — tailored nc system

специализированная архитектура — tailored architecture

специализированная конструкция — tailored architecture

специализированный архитектура — tailored architecture

4. aplication-specific

5. application specific

специализированное применение — customized application

6. application-specific

специализированный интегральный процессор — application-specific integrated processor

7. industry specific

поставщик специализированных программ — specific software suppliers

8. single purpose

единственная цель; специализированный — single purpose

9. single-purpose

специализированная вычислительная машина — single-purpose computer

10. special-purpose

специализированный робот — special-purpose robot

специализированная ЭВМ — special-purpose computer

специализированный контейнер — special-purpose container

11. specialized

специализированный журнал — specialized magazine

специализированное учреждение — specialized agency

специализированный программа — specialized program

специализированная программка — specialized program

специализированная установка — specialized facility

Norton, Charles Hotchkiss

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 23 November 1851 Plainville, Connecticut, USA

d. 27 October 1942 Plainville, Connecticut, USA

[br]

American mechanical engineer and machine-tool designer.

[br]

After an elementary education at the public schools of Plainville and Thomaston, Connecticut, Charles H.Norton started work in 1866 at the Seth Thomas Clock Company in Thomaston. He was soon promoted to machinist, and further progress led to his successive appointments as Foreman, Superintendent of Machinery and Manager of the department making tower clocks. He designed many public clocks.

In 1886 he obtained a position as Assistant Engineer with the Brown \& Sharpe Manufacturing Company at Providence, Rhode Island, and was engaged in redesigning their universal grinding machine to give it more rigidity and make it more suitable for use as a production machine. In 1890 he left to become a partner in a newly established firm, Leland, Faulconer \& Norton Company at Detroit, Michigan, designing and building machine tools. He withdrew from this firm in 1895 and practised as a consulting mechanical engineer for a short time before returning to Brown \& Sharpe in 1896. There he designed a grinding machine incorporating larger and wider grinding wheels so that heavier cuts could be made to meet the needs of the mass-production industries, especially the automobile industry. This required a heavier and more rigid machine and greater power, but these ideas were not welcomed at Brown \& Sharpe and in 1900 Norton left to found the Norton Grinding Company in Worcester, Massachusetts. Here he was able to develop heavy-production grinding machines, including special machines for grinding crank-shafts and camshafts for the automobile industry.

In setting up the Norton Grinding Company, Charles H.Norton received financial support from members of the Norton Emery Wheel Company (also of Worcester and known after 1906 as the Norton Company), but he was not related to the founder of that company. The two firms were completely independent until 1919 when they were merged. From that time Charles H.Norton served as Chief Engineer of the machinery division of the Norton Company, until 1934 when he became their Consulting Engineer.

[br]

Principal Honours and Distinctions

City of Philadelphia, John Scott Medal 1925.

Bibliography

Norton was granted more than one hundred patents and was author of Principles of Cylindrical Grinding, 1917, 1921, Worcester, Mass.

Further Reading

Robert S.Woodbury, 1959, History of the Grinding Machine, Cambridge, Mass, (contains biographical information and details of the machines designed by Norton).

RTS

Maudslay, Henry

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 22 August 1771 Woolwich, Kent, England

d. 15 February 1831 Lambeth, London, England

[br]

English precision toolmaker and engineer.

[br]

Henry Maudslay was the third son of an ex-soldier and storekeeper at Woolwich Arsenal. At the age of 12 he was employed at the Arsenal filling cartridges; two years later he was transferred to the woodworking department, adjacent to the smithy, to which he moved when 15 years old. He was a rapid learner, and three years later Joseph Bramah took him on for the construction of special tools required for the mass-production of his locks. Maudslay was thus employed for the next eight years. He became Bramah's foreman, married his housekeeper, Sarah Tindale, and, unable to better himself, decided to leave and set up on his own. He soon outgrew his first premises in Wells Street and moved to Margaret Street, off Oxford Street, where some examples of his workmanship were displayed in the window. These caught the attention of a visiting Frenchman, de Bacquancourt; he was a friend of Marc Isambard Brunel, who was then in the early stages of designing the block-making machinery later installed at Portsmouth dockyard.

Brunel wanted first a set of working models, as he did not think that the Lords of the Admiralty would be capable of understanding engineering drawings; Maudslay made these for him within the next two years. Sir Samuel Bentham, Inspector-General of Naval Works, agreed that Brunel's system was superior to the one that he had gone some way in developing; the Admiralty approved, and an order was placed for the complete plant. The manufacture of the machinery occupied Maudslay for the next six years; he was assisted by a draughtsman whom he took on from Portsmouth dockyard, Joshua Field (1786–1863), who became his partner in Maudslay, Son and Field. There were as many as eighty employees at Margaret Street until, in 1810, larger premises became necessary and a new works was built at Lambeth Marsh where, eventually, there were up to two hundred workers. The new factory was flanked by two houses, one of which was occupied by Maudslay, the other by Field. The firm became noted for its production of marine steam-engines, notably Maudslay's table engine which was first introduced in 1807.

Maudslay was a consummate craftsman who was never happier than when working at his bench or at a machine tool; he was also one of the first engineers to appreciate the virtues of standardization. Evidence of this appreciation is to be found in his work in the development of the Bramah lock and then on the machine tools for the manufacture of ship's blocks to Marc Brunel's designs; possibly his most important contribution was the invention in 1797 of the metal lathe. He made a number of surface plates of the finest quality. The most celebrated of his numerous measuring devices was a micrometer-based machine which he termed his "Lord Chancellor" because, in the machine shop, it represented the "final court of appeal", measuring to one-thousandth of an inch.

[br]

Further Reading

1934–5, "Maudslay, Sons \& Field as general engineers", Transactions of the Newcomen Society 15, London.

1963, Engineering Heritage, Vol. 1, London: Institution of Mechanical Engineers. L.T.C.Rolt, 1965, Tools for the Job, London: Batsford.

W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford: Oxford University Press.

IMcN

Renold, Hans

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 31 July 1852 Aarau, Switzerland

d. 2 May 1943 Grange-over-Sands, Lancashire, England

[br]

Swiss (naturalized British 1881) mechanical engineer, inventor and pioneer of the precision chain industry.

[br]

Hans Renold was educated at the cantonal school of his native town and at the Polytechnic in Zurich. He worked in two or three small workshops during the polytechnic vacations and served an apprenticeship of eighteen months in an engineering works at Neuchâtel, Switzerland. After a short period of military service he found employment as a draughtsman in an engineering firm at Saint-Denis, near Paris, from 1871 to 1873. In 1873 Renold moved first to London and then to Manchester as a draughtsman and inspector with a firm of machinery exporters. From 1877 to 1879 he was a partner in his own firm of machine exporters. In 1879 he purchased a small firm in Salford making chain for the textile industry. At about this time J.K.Starley introduced the "safety" bicycle, which, however, lacked a satisfactory drive chain. Renold met this need with the invention of the bush roller chain, which he patented in 1880. The new chain formed the basis of the precision chain industry: the business expanded and new premises were acquired in Brook Street, Manchester, in 1881. In the same year Renold became a naturalized British subject.

Continued expansion of the business necessitated the opening of a new factory in Brook Street in 1889. The factory was extended in 1895, but by 1906 more accommodation was needed and a site of 11 ½ acres was acquired in the Manchester suburb of Burnage: the move to the new building was finally completed in 1914. Over the years, further developments in the techniques of chain manufacture were made, including the invention in 1895 of the inverted tooth or silent chain. Renold made his first visit to America in 1891 to study machine-tool developments and designed for his own works special machine tools, including centreless grinding machines for dealing with wire rods up to 10 ft (3 m) in length.

The business was established as a private limited company in 1903 and merged with the Coventry Chain Company Ltd in 1930. Good industrial relations were always of concern to Renold and he established a 48-hour week as early as 1896, in which year a works canteen was opened. Joint consultation with shop stewards date2 from 1917. Renold was elected a Member of the Institution of Mechanical Engineers in 1902 and in 1917 he was made a magistrate of the City of Manchester.

[br]

Principal Honours and Distinctions

Honorary DSc University of Manchester 1940.

Further Reading

Basil H.Tripp, 1956, Renold Chains: A History of the Company and the Rise of the Precision Chain Industry 1879–1955, London.

J.J.Guest, 1915, Grinding Machinery, London, pp. 289, 380 (describes grinding machines developed by Renold).

RTS

Fox, Samson

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Metallurgy, Steam and internal combustion engines

[br]

b. 11 July 1838 Bowling, near Bradford, Yorkshire, England

d. 24 October 1903 Walsall, Staffordshire, England

[br]

English engineer who invented the corrugated boiler furnace.

[br]

He was the son of a cloth mill worker in Leeds and at the age of 10 he joined his father at the mill. Showing a mechanical inclination, he was apprenticed to a firm of machine-tool makers, Smith, Beacock and Tannett. There he rose to become Foreman and Traveller, and designed and patented tools for cutting bevelled gears. With his brother and one Refitt, he set up the Silver Cross engineering works for making special machine tools. In 1874 he founded the Leeds Forge Company, acting as Managing Director until 1896 and then as Chairman until shortly before his death.

It was in 1877 that he patented his most important invention, the corrugated furnace for steam-boilers. These furnaces could withstand much higher pressures than the conventional form, and higher working pressures in marine boilers enabled triple-expansion engines to be installed, greatly improving the performance of steamships, and the outcome was the great ocean-going liners of the twentieth century. The first vessel to be equipped with the corrugated furnace was the Pretoria of 1878. At first the furnaces were made by hammering iron plates using swage blocks under a steam hammer. A plant for rolling corrugated plates was set up at Essen in Germany, and Fox installed a similar mill at his works in Leeds in 1882.

In 1886 Fox installed a Siemens steelmaking plant and he was notable in the movement for replacing wrought iron with steel. He took out several patents for making pressed-steel underframes for railway wagons. The business prospered and Fox opened a works near Chicago in the USA, where in addition to wagon underframes he manufactured the first American pressed-steel carriages. He later added a works at Pittsburgh.

Fox was the first in England to use water gas for his metallurgical operations and for lighting, with a saving in cost as it was cheaper than coal gas. He was also a pioneer in the acetylene industry, producing in 1894 the first calcium carbide, from which the gas is made.

Fox took an active part in public life in and around Leeds, being thrice elected Mayor of Harrogate. As a music lover, he was a benefactor of musicians, contributing no less than £45,000 towards the cost of building the Royal College of Music in London, opened in 1894. In 1897 he sued for libel the author Jerome K.Jerome and the publishers of the Today magazine for accusing him of misusing his great generosity to the College to give a misleading impression of his commercial methods and prosperity. He won the case but was not awarded costs.

[br]

Principal Honours and Distinctions

Royal Society of Arts James Watt Silver Medal and Howard Gold Medal. Légion d'honneur 1889.

Bibliography

1877, British Patent nos. 1097 and 2530 (the corrugated furnace or "flue", as it was often called).

Further Reading

Obituary, 1903, Proceedings of the Institution of Mechanical Engineers: 919–21.

Obituary, 1903, Proceedings of the Institution of Civil Engineers (the fullest of the many obituary notices).

G.A.Newby, 1993, "Behind the fire doors: Fox's corrugated furnace 1877 and the high pressure steamship", Transactions of the Newcomen Society 64.

LRD

вмонтированный

•

The amplifier has built-in power supplies.

•

The motor built into the driving drum...

•

Special devices built into the tank...

•

Figure 2 shows the instrument fitted into a pipeline.

•

The transfer pot incorporated in the top section of the mould...

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The indexing unit incorporated into a machine tool...

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The by-pass capacitors mounted (or incorporated) in the unit...

вмонтированный

•

The amplifier has built-in power supplies.

•

The motor built into the driving drum...

•

Special devices built into the tank...

•

Figure 2 shows the instrument fitted into a pipeline.

•

The transfer pot incorporated in the top section of the mould...

•

The indexing unit incorporated into a machine tool...

•

The by-pass capacitors mounted (or incorporated) in the unit...

Sonderwerkzeugmaschine

f <wz.masch> ■ special-purpose machine tool