gear-cutting+machine

зуборезный станок

gear-cutting machine

mašina za rezanje zubčanika

• gear cutting machine

тиш кескич тез

gear-cutting machine

зъбонарезна машина

gear-cutting machine

gear cutter

gear cutters

tool-cutting machine

wheel-cutting machine

wheel cutter

wheel cutters

зуборезный станок

gear-cutting machine

* * *

gear-cutting machine

зуборезный станок

gear cutter, gear-cutting machine, gear-making machine

тиш сургуч тез

gear-cutting machine, gear-planing machine

зуборезный станок

gear-cutting machine, gear-cutter

зуборезный станок

gear-cutting machine имя существительное:

generator (генератор, производитель, источник энергии, паровой котел, зуборезный станок)

станок

bench, frame, machine, mill, machine tool station, machining (work) station, tool, working machine

* * *

стано́к м.

1. ( машина для обработки) machine (tool)

стано́к допуска́ет обрабо́тку изде́лий любо́го разме́ра — the machine(-tool) accommodates workpieces of any size

нала́живать стано́к — set up a machine

обраба́тывать на станке́ ( резанием) — machine

обслу́живать стано́к — attend to a machine

оди́н рабо́чий обслу́живает 5 станко́в — one operator attends to 5 machines

рабо́тать на станке́ — operate a machine

2. (опора, основание) bed (frame), frame

агрега́тный стано́к — transfer machine; “building-block” machine (tool)

балансиро́вочный стано́к — balancing machine

болторе́зный стано́к — bolt-threading machine

бурово́й стано́к — drilling rig

бурово́й стано́к враща́тельно-шне́кового буре́ния — auger-drilling rig

бурово́й стано́к дробово́го буре́ния — chilled shot drilling rig

бурово́й стано́к коло́нкового буре́ния — drifter [column] drilling rig

бурово́й стано́к пневмоуда́рного буре́ния — air-powered percussive drilling rig

бурово́й стано́к терми́ческого буре́ния — flame-jet drilling rig

бурово́й стано́к уда́рно-кана́тного буре́ния — churn drilling rig

бурово́й стано́к шаро́шечного буре́ния — roller-bit [rotary, self-propelled roller-bit] drilling rig

бурозапра́вочный стано́к — jackmill

винторе́зный стано́к — screw-cutting machine

волочи́льный стано́к — draw(ing) bench, drawing machine

гайконарезно́й стано́к — nut-cutting machine

ги́бочный стано́к — bending machine

дави́льный стано́к — spinning lathe

деревообраба́тывающий стано́к — wood-working machine

стано́к для прити́рки кла́панов — valve grinder

стано́к для чепракова́ния голья́ кож. — splitting horse

дово́дочный стано́к — lapping [microfinishing] machine

долбё́жный стано́к — ( по металлу) slotting machine, slotter; ( по дереву) mortising machine, mortiser

зака́точный стано́к — beading machine

запа́ячный стано́к ( в производстве электровакуумных приборов) — sealing-in machine

зато́чный стано́к — tool-grinding machine

затыло́вочный стано́к — relieving machine

зубодолбё́жный стано́к — gear shaper

зуборе́зный стано́к — gear-cutting machine

зубострога́льный стано́к — gear planer

зубофре́зерный стано́к — gear-hobbing machine, gear hobber

зубошлифова́льный стано́к — gear-grinding machine

калё́вочный стано́к — moulding machine, moulder

каширова́льный стано́к полигр. — backing machine, backer

клепа́льный стано́к — rivetting machine, rivetting press

копирова́льный стано́к

1. метал.-об. duplicating machine

2. кфт. printer

копирова́льный, конта́ктный стано́к — contact printer

корректу́рный стано́к — galley press

кромкозаги́бочный стано́к — flanging machine

кромкообру́бочный стано́к — trimmer

кромкострога́льный стано́к — edge planing machine

кругли́льный стано́к — rounding machine, rounder

литогра́фский печа́тный стано́к — hand press for offset lithography

лущи́льный стано́к — rotary peeler, rotary veneer machine, veneer-cutting lathe

металлообраба́тывающий стано́к ( со снятием металла) — metal-removal machine tool

металлоре́жущий стано́к — metal-cutting machine tool

мультипликацио́нный стано́к — animation stand

насто́льный стано́к — bench-type machine tool

обрезно́й стано́к — edging [trimming] machine

око́рочный стано́к — (dis)barking machine, debarker

опило́вочный стано́к — filing machine

оплё́точный стано́к — braider

остри́льно-запра́вочный стано́к — pull-in pointer

отрезно́й стано́к — cutting-off machine

отрезно́й, ано́дно-механи́ческий стано́к — electrolitically assisted cutting-off machine

пазова́льный стано́к — groove-cutting machine

перево́дный стано́к — transfer press

пи́льный стано́к — sawing machine

плющи́льный стано́к — flattening mill

полирова́льный стано́к

1. метал. buffing machine

2. дер.-об. polishing machine

прави́льный стано́к — straightener

припра́вочный стано́к — make-ready press

прити́рочный стано́к — lapping machine

продо́льно-ре́жущий стано́к — slitting machine, slitter

протяжно́й стано́к — broaching machine

проши́вочный стано́к — broaching machine

пряди́льный стано́к — spinning loom

раскряжё́вочный стано́к — circular log cross-cut [block] saw, log cutter

расто́чный стано́к — boring machine, borer

рашке́тный стано́к полигр. — proof press

резьбонака́тный стано́к — thread-rolling machine

резьбонарезно́й стано́к — thread-cutting lathe

рейконарезно́й стано́к — rack-cutting machine

ретушева́льный стано́к — retouching desk

рифто́вочный стано́к — riffling machine

рихтова́льный стано́к — levelling machine, straightener

сверли́льный стано́к — drilling machine, drill

сверли́льный, револьве́рный стано́к — turret drilling machine, turret drill

скобли́льный стано́к — stereo-type shaver

скоропеча́тный стано́к — engine press

спло́точный стано́к лес. — bundling machine

строга́льный стано́к — planing machine, planer

стано́к с числовы́м управле́нием — numerically controlled [N/ C] machine tool

тка́цкий стано́к — loom

тока́рный стано́к — lathe

тока́рный, патро́нный стано́к — chucking lathe

тока́рный, револьве́рный стано́к — turret lathe

тока́рный, фасо́нный стано́к — shaping lathe, forming lathe

тока́рный, центрово́й стано́к — centre lathe

торцо́вочный стано́к — cross-cut [butting, cut-off] saw

точи́льный стано́к — grinder, sharpener

трубоволочи́льный стано́к — tube-drawing bench

трубоги́бочный стано́к — pipe-bending machine

трубонарезно́й стано́к — pipe-threading machine

труборе́зный стано́к — pipe-cutting machine

уто́рный стано́к — barrel [stave] crozing machine

фальцо́вочный стано́к — squeezing machine, squeezer

фанеролущи́льный стано́к — wood-peeling machine

фаце́тный стано́к — bevelling-and-trimming machine

фланцезаги́бочный стано́к — flanging machine

форма́тный стано́к — dimensioning saw

формо́вочный стано́к — moulding machine

фре́зерный стано́к — milling machine, miller

фре́зерный, бесконсо́льный стано́к — compound-table milling machine

фре́зерный, карусе́льный стано́к — rotary-table milling machine

фре́зерный, консо́льный стано́к — knee-type milling machine

фре́зерный, копирова́льный стано́к — routing machine

фугова́льный стано́к — jointing machine

хонингова́льный стано́к — honing machine, honer

центрова́льный стано́к — centring machine

цепопро́бный стано́к — chain testing machine

цоколё́вочный стано́к — basing [base filling] machine

шерохова́льный стано́к рез. — buffing machine

шипоре́зный стано́к — dovetailing [tenon-making] machine

шлифова́льно-прити́рочный стано́к — honing machine, honer

шлифова́льный стано́к

1. grinding machine, grinder

2. дер.-об. sand-papering machine, sander

электроискрово́й стано́к — electrospark discharge machine

электроэрозио́нный стано́к — electrical-discharge [electroerosion] machine

* * *

rig

Grant, George Barnard

SUBJECT AREA: Electronics and information technology

[br]

b. 21 December 1849 Farmingdale, Gardiner, Maine, USA

d. 16 August 1917 Pasadena, California, USA

[br]

American mechanical engineer and inventor of Grant's Difference Engine.

[br]

George B.Grant was descended from families who came from Britain in the seventeenth century and was educated at the Bridgton (Maine) Academy, the Chandler Scientific School of Dartmouth College and the Lawrence Scientific School of Harvard College, where he graduated with the degree of BS in 1873. As an undergraduate he became interested in calculating machines, and his paper "On a new difference engine" was published in the American Journal of Science in August 1871. He also took out his first patents relating to calculating machines in 1872 and 1873. A machine of his design known as "Grant's Difference Engine" was exhibited at the Centennial Exposition in Philadelphia in 1876. Similar machines were also manufactured for sale; being sturdy and reliable, they did much to break down the prejudice against the use of calculating machines in business. Grant's work on calculating machines led to a requirement for accurate gears, so he established a machine shop for gear cutting at Charlestown, Massachusetts. He later moved the business to Boston and incorporated it under the name of Grant's Gear Works Inc., and continued to control it until his death. He also established two other gear-cutting shops, the Philadelphia Gear Works Inc., which he disposed of in 1911, and the Cleveland Gear Works Inc., which he also disposed of after a few years. Grant's commercial success was in connection with gear cutting and in this field he obtained several patents and contributed articles to the American Machinist. However, he continued to take an interest in calculating machines and in his later years carried out experimental work on their development.

[br]

Bibliography

1871, "On a new difference engine", American Journal of Science (August). 1885, Chart and Tables for Bevel Gears.

1885, A Handbook on the Teeth of Gear Wheels, Boston, Mass.

1891, Odontics, or the Theory and Practice of the Teeth of Gears, Lexington, Mass.

Further Reading

R.S.Woodbury, 1958, History of the Gear-cutting Machine, Cambridge, Mass, (describes his gear-cutting machine).

RTS

Brown, Joseph Rogers

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 26 January 1810 Warren, Rhode Island, USA

d. 23 July 1876 Isles of Shoals, New Hampshire, USA

[br]

American machine-tool builder and co-founder of Brown \& Sharpe.

[br]

Joseph Rogers Brown was the eldest son of David Brown, who was modestly established as a maker of and dealer in clocks and watches. Joseph assisted his father during school vacations and at the age of 17 left to obtain training as a machinist. In 1829 he joined his father in the manufacture of tower clocks at Pawtucket, Rhode Island, and two years later went into business for himself in Pawtucket making lathes and small tools. In 1833 he rejoined his father in Providence, Rhode Island, as a partner in the manufacture of docks, watches and surveying and mathematical instruments. David Brown retired in 1841.

J.R.Brown invented and built in 1850 a linear dividing engine which was the first automatic machine for graduating rules in the United States. In 1851 he brought out the vernier calliper, the first application of a vernier scale in a workshop measuring tool. Lucian Sharpe was taken into partnership in 1853 and the firm became J.R.Brown \& Sharpe; in 1868 the firm was incorporated as the Brown \& Sharpe Manufacturing Company.

In 1855 Brown invented a precision gear-cutting machine to make clock gears. The firm obtained in 1861 a contract to make Wilcox \& Gibbs sewing machines and gave up the manufacture of clocks. At about this time F.W. Howe of the Providence Tool Company arranged for Brown \& Sharpe to make a turret lathe required for the manufacture of muskets. This was basically Howe's design, but Brown added a few features, and it was the first machine tool built for sale by the Brown \& Sharpe Company. It was followed in 1862 by the universal milling machine invented by Brown initially for making twist drills. Particularly for cutting gear teeth, Brown invented in 1864 a formed milling cutter which could be sharpened without changing its profile. In 1867 the need for an instrument for checking the thickness of sheet material became apparent, and in August of that year J.R.Brown and L.Sharpe visited the Paris Exhibition and saw a micrometer calliper invented by Jean Laurent Palmer in 1848. They recognized its possibilities and with a few developments marketed it as a convenient, hand-held measuring instrument. Grinding lathes were made by Brown \& Sharpe in the early 1860s, and from 1868 a universal grinding machine was developed, with the first one being completed in 1876. The patent for this machine was granted after Brown's sudden death while on holiday.

[br]

Further Reading

J.W.Roe, 1916, English and American Tool Builders, New Haven: Yale University Press; repub. 1926, New York and 1987, Bradley, Ill.: Lindsay Publications Inc. (further details of Brown \& Sharpe Company and their products).

R.S.Woodbury, 1958, History of the Gear-Cutting Machine, Cambridge, Mass.: MIT Press ——, 1959, History of the Grinding Machine, Cambridge, Mass.: MIT Press.

——, 1960, History of the Milling Machine, Cambridge, Mass.: MIT Press.

RTS

Bilgram, Hugo

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 13 January 1847 Memmingen, Bavaria, Germany

d. 27 August 1932 Moylan, Pennsylvania, USA

[br]

German (naturalized American) mechanical engineer, inventor of bevel-gear generator and economist.

[br]

Hugo Bilgram studied mechanical engineering at the Augsburg Maschinenbau Schule and graduated in 1865. He worked as a machinist and draughtsman for several firms in Germany before going to the United States in 1869.

In America he first worked for L.B.Flanders Company and Southwark Foundry \& Machine Company in Philadelphia, designing instruments and machines. In the 1870s he also assisted in an evening class in drawing at The Franklin Institute. He devised the Bilgram Valve Diagram for analysing the action of steam engine slide valves and he developed a method of drawing accurate outlines of gear teeth. This led him to design a machine for cutting the teeth of gear wheels, particularly bevel wheels, which he patented in 1884. He was in charge of the American branch of Brehmer Brothers Company from 1879 and in 1884 became the sole owner of the company, which was later incorporated as the Bilgram Machine Works. He was responsible for several other inventions and developments in gear manufacture.

Bilgram was a member of the Franklin Institute, the American Academy of Political and Social Science, the Philadelphia Technische Verein and the Philadelphia Engineer's Club, and was elected a member of the American Society of Mechanical Engineers in 1885. He was also an amateur botanist, keenly interested in microscopic work.

[br]

Principal Honours and Distinctions

Franklin Institute Elliott Cresson Gold Medal. City of Philadelphia John Scott Medal.

Bibliography

Hugo Bilgram was granted several patents and was the author of: 1877, Slide Valve Gears.

1889, Involuntary Idleness.

1914, The Cause of Business Depression.

1928, The Remedy for Overproduction and Unemployment.

Further Reading

Robert S.Woodbury, 1958, History of the Gear-cutting Machine, Cambridge, Mass, (describes Bilgram's bevel-gear generating machine).

RTS

зуборезный станок

1) General subject: gear-cutter

2) Engineering: gear-cutting machine

3) Automobile industry: tooth cutting machine

4) Automation: gear cutter, gear-making machine

5) Makarov: nongenerator

Fox, James

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. c.1760

d. 1835 Derby, England

[br]

English machine-tool builder.

[br]

Very little is known about the life of James Fox, but according to Samuel Smiles (1863) he was as a young man a butler in the service of the Reverend Thomas Gisborne of Foxhall Lodge, Staffordshire. His mechanical abilities were evident from his spare-time activities in the handling of tools and so impressed his employer that he supplied the capital to enable Fox to set up a business in Derby for the manufacture of machinery for the textile and lacemaking industries. To construct this machinery, Fox had to build his own machine tools and later, in the early nineteenth century, made them for sale, some being exported to France, Germany and Poland. He was renowned for his lathes, some of which were quite large; one built in 1830 has been preserved and is 22 ft (6.7 m) long with a swing of 27 in. (69 cm). He was responsible for many improve-ments in the design of the lathe and he also built some of the earliest planing machines (the first, it has been claimed, as early as 1814) and a gear-cutting machine, although this was apparently for cutting wooden patterns for cast gears. The business was continued by his sons Joseph and James (who died in 1859 aged 69) and into the 1860s by the sons of Joseph.

[br]

Further Reading

S.Smiles, 1863, Industrial Biography, London, reprinted 1967, Newton Abbot (makes brief mention of Fox).

Letters relating to the invention of the planing machine can be found in Engineer 14 (1862): 189, 204, 219, 246 and 247.

His lathes are described in: R.S.Woodbury, 1961, History of the Lathe to 1850, Cleveland, Ohio; L.T.C.Rolt, 1965, Tools for the Job, London; repub. 1986; W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford.

RTS

fresatrice

fresatrice s.f. (mecc.) milling machine, miller: fresatrice a comando elettronico, electronically-controlled milling machine; fresatrice automatica, self-acting milling machine; fresatrice per ingranaggi, gear cutting machine; fresatrice universale, universal miller.

* * *

[freza'tritʃe]

sostantivo femminile tecn. (macchina) miller, milling machine

* * *

fresatrice

/freza'trit∫e/

sostantivo f.

tecn. (macchina) miller, milling machine.

mašina za rezanje zupčanika

• thread cutting machine

• gear cutting machine

dentatrice

dentatrice s.f. (mecc.) gear cutter, gear cutting machine.

станок для нарезания конических ЗК с криволинейными зубьями

Automation: curved tooth bevel gear cutting machine

Kegelradfräsmaschine

f <wz.masch> ■ bevel gear cutting machine