-
61 stand
1. n стойка; подставка, подпорка; штатив, консоль2. n столик3. n ларёк, киоск4. n прилавок5. n стенд, установка для испытания6. n буфетная стойка7. n эстрада8. n зрители на трибунахstand by — быть безучастным зрителем, не вмешиваться
9. n кафедра, трибуна10. n амер. юр. место для дачи свидетельских показаний в суде11. n место, позиция, положениеstand down — уступать, отступаться; освобождать место
stand ground — удержать позиции; проявить твердость
12. n позиция, установка, точка зренияto take a definite stand on the question of civil rights — занять определённую позицию в вопросе о гражданских правах
13. n боевая позиция; оборона, защита14. n спорт. стояние, стойка15. n стоянка16. n воен. постостановка, пауза
17. n театр. город, где даются гастроли18. n театр. недоумение, смущение, затруднение; дилемма19. n театр. воен. комплект20. n театр. охот. выводок21. n театр. с. -х. урожай на корню22. n с. -х. подрост23. n с. -х. травостой, стеблестой24. n тех. станина25. n тех. клеть26. n тех. реакт. пусковой ствол27. n тех. стойло28. v стоятьthe hill whereon we stand — холм, на котором мы стоим
29. v вставать30. v находиться, быть расположеннымstand about — стоять, находиться
to stand first — быть первым; быть в первых рядах
31. v занимать положениеthe thermometer stood at 0° — термометр показывал 0°
32. v ставить, помещать33. v поставить34. v не двигаться, стоять на местеto stand straight — стоять прямо, не горбиться
stand in the way — мешать; стоять на пути
35. v останавливаться, прекращать движение36. v не работать, простаивать, стоятьto stand buff — стоять, держаться
37. v быть устойчивым, прочным, крепким38. v быть стойким, держатьсяto stand to it — твёрдо настаивать на том, что …
39. v выдерживать, выносить, переноситьstand up — выдерживать; устоять
40. v подвергаться41. v выносить, терпеть, мириться42. v обыкн. юр. оставаться в силе, действовать; сохранять силу, тождествоto stand good — иметь силу, оставаться в силе
stand off — держаться на расстоянии; оставаться в стороне
43. v придерживаться определённой точки зрения, занимать определённую позицию44. v настаиватьto stand on ceremony — соблюдать условности, придерживаться этикета
to stand upon punctilios — настаивать на мелочах, придерживаться мелочных формальностей
45. v основываться46. v зависеть47. v быть написанным, напечатанным48. v иметь определённое количество стоячих мест49. v мор. идти, держать курс, направлятьсяstand for — поддерживать; твердо держаться
50. v охот. делать стойку51. v иметь в перспективеto stand or fall — уцелеть или погибнуть;
52. v с. -х. быть производителем; быть пригодным для случкиСинонимический ряд:1. blind (noun) blind2. booth (noun) booth; case; counter; stall; table3. defensive (noun) defensive; effort; hold; resistance4. grove (noun) copse; crop; forest; grove; growth; wood5. platform (noun) dais; gantry; grandstand; platform; podium; pulpit; stage6. poise (noun) place; poise; pose; post; spot; station7. position (noun) attitude; belief; color; determination; notion; opinion; position; posture; sentiment; stance; view; viewpoint8. bear (verb) abide; accept; bear; brook; continue; digest; endure; go; hold; lump; outlast; stick out; stomach; suffer; survive; sustain; swallow; sweat out; take; tolerate; undergo; weather9. erect (verb) erect; fix; place; position; put; set10. get up (verb) get up; rise11. oppose (verb) compete; confront; encounter; face; meet; oppose; resist; withstand12. stand for (verb) advocate; champion; endorse; represent; stand for; support; symbolize13. treat (verb) blow; set up; treatАнтонимический ряд:fade; fail; fall; lay; lie; move; oppose; proceed; progress; retreat; run; succumb; yield -
62 straight
1. n прямая линия2. n прямизна3. n спорт. финишная прямаяback straight — прямая, противоположная финишной прямой
4. n честность5. n карт. карты, подобранные подряд по достоинству, «порядок», «стрит»6. n нормальный человек7. n неодобр. «добропорядочный» человек, обыватель, мещанин8. a прямой, неизогнутый9. a не отклоняющийся от курса, не сходящий с дороги; беспрерывныйSturzhang, straight — вис прогнувшись
10. a невьющийся11. a авт. с цилиндрами в ряд12. a правильный, ровный; находящийся в порядкеfaced straight — правильно отрезал; правильно отрезанный
13. a разг. честный, прямой, искреннийstraight dealing — честность, честное ведение дел
to keep straight — оставаться честным; вести честный образ жизни
14. a разг. верный, надёжный15. a амер. полит. неуклонно поддерживающий решения своей партии; преданный своей партии16. a амер. неразбавленный17. a амер. ком. фиксированный, прейскурантный; без скидки за большое количество купленногоcigars 20 cents straight — сигары 20 центов штука, без скидки
18. a лит. театр. чистый по жанру19. a лит. театр. естественный, органичный20. a лит. театр. обыкновенный, рядовойa straight novel — рядовой роман, бесхитростное повествование
21. a лит. театр. идущий по порядкуvertical press with straight arms sideward to support — подъем силой с прямыми руками через стороны в упор
22. a лит. театр. карт. расположенный по порядкуstraight flush — карты одной масти по порядку; «королевский цвет», объективный
23. a разг. обычный, традиционный24. a разг. нормальный; здоровый25. a разг. единственный; прямойa salesman on straight commission — коммивояжёр, работающий только за комиссионные
26. a разг. прямой, непосредственный27. adv по прямой линии, прямоto stand straight — стоять прямо, не горбиться
28. adv прямо, непосредственно29. adv правильно, точно, метко30. adv правильно, упорядоченно31. adv честно, открыто, прямо32. adv объективноto write a story straight — нарисовать объективную картину; изложить события без комментариев
33. adv ясно, здравоСинонимический ряд:1. conventional (adj.) button-down; conventional; orthodox; square2. correct (adj.) accurate; correct; right3. direct (adj.) continuous; direct; linear; nonstop; through; undeviating; uninterrupted; unswerving4. even (adj.) even; flat; flush; level; planate; plane; smooth5. honest (adj.) equitable; fair; honest; honorable; honourable; just; moral; upright; virtuous6. neat (adj.) full-strength; neat; orderly; plain; pure; tidy; unadulterated; unaltered; unblended; unchanged; undiluted; unmixed; unmodified7. open (adj.) candid; forthright; frank; open; plainspoken; undisguised8. rectilinear (adj.) aligned; erect; horizontal; perpendicular; plumb; rectilinear; vertical9. straightforward (adj.) aboveboard; plain dealing; straightforward10. right (noun) good; right11. away (other) at once; away; first off; forthwith; immediately; instanter; instantly; now; PDQ; right away; right off; straight away; straight off; straightway12. directly (other) as the crow flies; dead; direct; directly; due; in a beeline; right; straight ahead; straightly; undeviatinglyАнтонимический ряд:askew; circuitous; crooked; curved; deceptive; deformed; deviating; devious; dishonest; distorted; fraudulent; grotesque; indirect; interrupted; messy; misshapen; mixed; wily -
63 frame
1. станина2. рама3. наборный стол; касса-реал4. рамкаcharacter frame — рамка знака; рамка символа
case frame — падежная рамка; падежный фрейм
5. одна строка кодов; кадр6. кадр; устанавливать кадр «в рамку»chase frame — заключная рама, рама для заключки
composing frame — наборный стол; касса-реал
contact printing frame — контактно-копировальный станок; копировальная рама
inker frame — рама красочных валиков и цилиндров; каретка накатных красочных валиков
page frame — макет страницы, приготовленной к вклеиванию иллюстрации
7. кадрирующая рамка, рамка кадра8. рама для оригинала9. рама для закрепления печатной формыscreen frame carriage — каретка, несущая трафаретную раму
10. рама для закрепления формной пластины11. копировальная рама, контактно-копировальный станок12. светокопировальный аппарат13. держатель растра14. трафаретная рамаslide frame — рамка для слайдов, рамка для малоформатных фотодиапозитивов
15. пневматическая копировальная рама16. пневматический оригиналодержатель -
64 Bouchon, Basile
SUBJECT AREA: Textiles[br]fl. c.1725 Lyon, France[br]French pioneer in automatic pattern selection for weaving.[br]In the earliest draw looms, the pattern to be woven was selected by means of loops of string that were loosely tied round the appropriate leashes, which had to be lifted to make that pick of the pattern by raising the appropriate warp threads. In Isfahan, Persia, looms were seen in the 1970s where a boy sat in the top of the loom. Before the weaver could weave the next pick, the boy selected the appropriate loop of string, pulled out those leashes which were tied in it and lifted them up by means of a forked stick. The weaver below him held up these leashes by a pair of wooden sticks and sent the shuttle through that shed while the boy was sorting out the next loop of string with its leashes. When the pick had been completed, the first loop was dropped further down the leashes and, presumably, when the whole sequence of that pattern was finished, all the loops had be pushed up the leashes to the top of the loom again.Models in the Conservatoire National des Arts et Métiers, Paris, show that in 1725 Bouchon, a worker in Lyon, dispensed with the loops of string and selected the appropriate leashes by employing a band of pierced paper pressed against a row of horizontal wires by the drawboy using a hand-bar so as to push forward those which happened to lie opposite the blank spaces. These connected with loops at the lower extremity of vertical wires linked to the leashes at the top of the loom. The vertical wires could be pulled down by a comb-like rack beside the drawboy at the side of the loom in order to pull up the appropriate leashes to make the next shed. Bouchon seems to have had only one row of needles or wires, which must have limited the width of the patterns. This is an early form of mechanical memory, used in computers much later. The apparatus was improved subsequently by Falcon and Jacquard.[br]Further ReadingA.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London (a brief description of Bouchon's apparatus).M.Daumas (ed.), 1968, Histoire générale des techniques Vol. III: L'Expansion dumachinisme, Paris (a description of this apparatus, with a diagram). Conservatoire National des Arts et Métiers, 1942, Catalogue du musée, section T, industries textiles, teintures et apprêts, Paris (another brief description; a model can be seen in this museum).C.Singer, (ed.), 1957, A History of Technology, Vol. III, Oxford: Clarendon Press (provides an illustration of Bouchon's apparatus).RLH -
65 Cotton, William
SUBJECT AREA: Textiles[br]b. 1819 Seagrave, Leicestershire, Englandd. after 1878[br]English inventor of a power-driven flat-bed knitting machine.[br]Cotton was originally employed in Loughborough and became one of the first specialized hosiery-machine builders. After the introduction of the latch needle by Matthew Townsend in 1856, knitting frames developed rapidly. The circular frame was easier to work automatically, but attempts to apply power to the flat frame, which could produce fully fashioned work, culminated in 1863 with William Cotton's machine. In that year he invented a machine that could make a dozen or more stockings or hose simultaneously and knit fashioned garments of all kinds. The difficulty was to reduce automatically the number of stitches in the courses where the hose or garment narrowed to give it shape. Cotton had early opportunities to apply himself to the improvement of hosiery machines while employed in the patent shop of Cartwright \& Warner of Loughborough, where some of the first rotaries were made. He remained with the firm for twenty years, during which time sixty or seventy of these machines were turned out. Cotton then established a factory for the manufacture of warp fabrics, and it was here that he began to work on his ideas. He had no knowledge of the principles of engineering or drawing, so his method of making sketches and then getting his ideas roughed out involved much useless labour. After twelve years, in 1863, a patent was issued for the machine that became the basis of the Cotton's Patent type. This was a flat frame driven by rotary mechanism and remarkable for its adaptability. At first he built his machine upright, like a cottage piano, but after much thought and experimentation he conceived the idea of turning the upper part down flat so that the needles were in a vertical position instead of being horizontal, and the work was carried off horizontally instead of vertically. His first machine produced four identical pieces simultaneously, but this number was soon increased. Cotton was induced by the success of his invention to begin machine building as a separate business and thus established one of the first of a class of engineering firms that sprung up as an adjunct to the new hosiery manufacture. He employed only a dozen men and turned out six machines in the first year, entering into an agreement with Hine \& Mundella for their exclusive use. This was later extended to the firm of I. \& R.Morley. In 1878, Cotton began to build on his own account, and the business steadily increased until it employed some 200 workers and had an output of 100 machines a year.[br]Bibliography1863, British patent no. 1,901 (flat-frame knitting machine).Further ReadingF.A.Wells, 1935, The British Hosiery and Knitwear Industry: Its History and Organisation, London (based on an article in the Knitters' Circular (Feb. 1898).A brief account of the background to Cotton's invention can be found in T.K.Derry and T.I. Williams, 1960, A Short History of Technology from the Earliest Times to AD 1900, Oxford; C. Singer (ed.), 1958, A History of Technology, Vol. V, Oxford: Clarendon Press.F.Moy Thomas, 1900, I. \& R.Morley. A Record of a Hundred Years, London (mentions cotton's first machines).RLH -
66 Dore (Dorr), Samuel Griswold
SUBJECT AREA: Textiles[br]b. USAd. 1794 England[br]American inventor of the first rotary shearing machine.[br]To give a smooth surface to cloth such as the old English broadcloth, the nap was raised and then sheared off. Hand-operated shears of enormous size cut the fibres standing proud of the surface while the cloth was laid over a curved table top. Great skill was required to achieve a smooth finish. Various attempts, such as that in 1784 by James Harmer, a clergyman of Sheffield, were made to mechanize the process by placing several pairs of shears in a frame and operating them by cranks, but these were not successful. The first version of a rotary machine was made by Samuel Griswold Dore (sometimes spelt Dorr), an American from Albany, New York. His first frame, patented in 1792 in America, consisted of a wheel of twelve "spring knives" that were fixed like spokes and set at an angle of about 45° to the horizontal. Under this wheel, and on the same axle, rode a second one, carrying four "tangent knives" that lay almost flat upon the cloth. As the two wheels rotated above the cloth's surface, they acted in "the manner of shears". The principle used in Dore's machine is certainly different from that in the later, successful machine of John Lewis. The machine was thought to be too complicated and expensive for American woollen manufacturers and was much better suited to circumstances in the English industry, Dore therefore moved to England. However, in his British patent in 1793, he introduced a different design, which was more like that on which both Lewis's machine and the lawnmower were based, with knives set across the periphery of a hollow cylinder or barrel. Little more was heard of his machine in Britain, possibly because of Dore's death, which is mentioned in his patent of 1794, although it was used in America and France. Dore's son and others improved the machine in America and brought new specifications to England in 1811, when several patents were taken out.[br]Bibliography1792. US patent (rotary shearing machine).1793. British patent no. 1,945 (rotary shearing machine). 1794. British patent no. 1,985.Further ReadingD.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830s, Oxford (examines Dore's inventions and their transfer to Britain).Mention of Dore can be found in: J. de L.Mann, 1971, The Cloth Industry in the West of England from 1660 to 1880, Oxford; K.G.Ponting, 1971, The Woollen Industry of South-West England, Bath.C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press (discusses Dore's inventions).RLHBiographical history of technology > Dore (Dorr), Samuel Griswold
-
67 Ma Jun (Ma Chun)
[br]fl. 220–265 China[br]Chinese engineer and inventor.[br]Ma Jun was active at the court of Emperor Ming Ti and achieved several useful inventions in a number of fields. First, he made improvements in the silk-weaving loom by simplifying the heddles and treadles, thereby enabling a greater variety of patterns to be woven. Second, he constructed a "south pointing carriage", which was a two-wheeled cart with a train of gears arranged so that whichever direction the vehicle turned, the figure mounted on top of it would always point south. This may seem trivial, but the carriage may have had useful applications, possibly in surveying. During the period 227 to 239, Ma Jun also made a square-pallet chain pump, usually attributed to Bi Lan (186 AD), Loyang, that was used to irrigate parks and gardens. Other inventions included rotary ballistae and mechanical toys that were worked by water power, such as puppets operated by horizontal jack wheels.[br]Further ReadingJ.Needham, Science and Civilisation in China, Cambridge: Cambridge University Press, 1965, Vol. IV, 2, pp. 39–42, 286–8, 295, 303, 346, 350, 524, 532–3.LRD -
68 Reynolds, Edwin
[br]b. 1831 Mansfield, Connecticut, USAd. 1909 Milwaukee, Wisconsin, USA[br]American contributor to the development of the Corliss valve steam engine, including the "Manhattan" layout.[br]Edwin Reynolds grew up at a time when formal engineering education in America was almost unavailable, but through his genius and his experience working under such masters as G.H. Corliss and William Wright, he developed into one of the best mechanical engineers in the country. When he was Plant Superintendent for the Corliss Steam Engine Company, he built the giant Corliss valve steam engine displayed at the 1876 Centennial Exhibition. In July 1877 he left the Corliss Steam Engine Company to join Edward Allis at his Reliance Works, although he was offered a lower salary. In 1861 Allis had moved his business to the Menomonee Valley, where he had the largest foundry in the area. Immediately on his arrival with Allis, Reynolds began desig-ning and building the "Reliance-Corliss" engine, which becamea symbol of simplicity, economy and reliability. By early 1878 the new engine was so successful that the firm had a six-month backlog of orders. In 1888 he built the first triple-expansion waterworks-pumping engine in the United States for the city of Milwaukee, and in the same year he patented a new design of blowing engine for blast furnaces. He followed this in March 1892 with the first steam engine sets coupled directly to electric generators when Allis-Chalmers contracted to build two Corliss cross-compound engines for the Narragansett Light Company of Providence, Rhode Island. In 1893, one of the impressive attractions at the World's Columbian Exposition in Chicago was the 3,000 hp (2,200 kW) quadruple-expansion Reynolds-Corliss engine designed by Reynolds, who continued to make significant improvements and gained worldwide recognition of his outstanding achievements in engine building.Reynolds was asked to go to New York in 1898 for consultation about some high-horsepower engines for the Manhattan transport system. There, 225 railway locomotives were to be replaced by electric trains, which would be supplied from one generating station producing 60,000 hp (45,000 kW). Reynolds sketched out his ideas for 10,000 hp (7,500 kW) engines while on the train. Because space was limited, he suggested a four-cylinder design with two horizontal-high-pressure cylinders and two vertical, low-pressure ones. One cylinder of each type was placed on each side of the flywheel generator, which with cranks at 135° gave an exceptionally smooth-running compact engine known as the "Manhattan". A further nine similar engines that were superheated and generated three-phase current were supplied in 1902 to the New York Interborough Rapid Transit Company. These were the largest reciprocating steam engines built for use on land, and a few smaller ones with a similar layout were installed in British textile mills.[br]Further ReadingConcise Dictionary of American Biography, 1964, New York: C.Scribner's Sons (contains a brief biography).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (provides a brief account of the Manhattan engines) Part of the information for this biography is derived from a typescript in the Smithsonian Institution, Washington, DC: T.H.Fehring, "Technological contributions of Milwaukee's Menomonee Valley industries".RLH
См. также в других словарях:
horizontal press — horizontalusis presas statusas T sritis automatika atitikmenys: angl. horizontal press vok. Horizontalpresse, f rus. горизонтальный пресс, m pranc. presse horizontale, f ryšiai: sinonimas – horizontalusis slėgtuvas … Automatikos terminų žodynas
Horizontal press — Печатная машина горизонтального типа … Краткий толковый словарь по полиграфии
Horizontal convective rolls — producing cloud streets (lower left portion of the image) over the Bering Sea … Wikipedia
Horizontal transmission — is the transmission of a bacterial, fungal, or viral infection between members of the same species that are not in a parent child relationship.There are two types of horizontal transmission, anterior station and posterior station .In anterior… … Wikipedia
Horizontal inequality — is the inequality economical, social or other that does not follow from a difference in an inherent quality such as intelligence, attractiveness or skills for people or profitability for corporations. In sociology, this is particularly applicable … Wikipedia
Horizontal integration — In microeconomics and strategic management, the term horizontal integration describes a type of ownership and control. It is a strategy used by a business or corporation that seeks to sell a type of product in numerous markets. Horizontal… … Wikipedia
Press-up — A press up, also known as a push up, is a common strength training exercise performed in a prone position, lying horizontal and face down, raising and lowering the body using the arms. They develop the pectoral muscles and triceps, with ancillary … Wikipedia
Horizontal resistance — The term horizontal resistance was first used by J.E. VanderplankVanderplank, J.E. (1963) Plant Diseases: Epidemics and Control. Academic Press, New York and London, 349pp.] to describe many gene resistance. This contrasts with the term vertical… … Wikipedia
horizontal — I (New American Roget s College Thesaurus) Parallel to the earth s surface Nouns 1. horizontality, horizontalness, flatness; level, plane; stratum (see layer); horizon, azimuth; recumbency, lying down, reclination, proneness, supination,… … English dictionary for students
press up — (British) push up, exercise in which a person rests face down in a horizontal position with his palms flat on the floor beneath his shoulders and then raises and lowers his body by straightening and bending the arms … English contemporary dictionary
Machine press — Manual goldsmith press Power press with a fixed barr … Wikipedia