-
1 хозяйственные постройки и сооружения
Русско-английский большой базовый словарь > хозяйственные постройки и сооружения
-
2 сельскохозяйственные постройки
Русско-английский большой базовый словарь > сельскохозяйственные постройки
-
3 производственные сооружения
Русско-английский большой базовый словарь > производственные сооружения
-
4 сооружение
1. improvement2. worksобщественные работы; общественные сооружения — public works
3. building4. edifice5. erection6. construction; building; structure7. fabric8. frame9. structureСинонимический ряд:строительство (сущ.) возведение; постройка; постройку; строительство; стройка; стройку -
5 Cartwright, Revd Edmund
[br]b. 24 April 1743 Marnham, Nottingham, Englandd. 30 October 1823 Hastings, Sussex, England[br]English inventor of the power loom, a combing machine and machines for making ropes, bread and bricks as well as agricultural improvements.[br]Edmund Cartwright, the fourth son of William Cartwright, was educated at Wakefield Grammar School, and went to University College, Oxford, at the age of 14. By special act of convocation in 1764, he was elected Fellow of Magdalen College. He married Alice Whitaker in 1772 and soon after was given the ecclesiastical living of Brampton in Derbyshire. In 1779 he was presented with the living of Goadby, Marwood, Leicestershire, where he wrote poems, reviewed new works, and began agricultural experiments. A visit to Matlock in the summer of 1784 introduced him to the inventions of Richard Arkwright and he asked why weaving could not be mechanized in a similar manner to spinning. This began a remarkable career of inventions.Cartwright returned home and built a loom which required two strong men to operate it. This was the first attempt in England to develop a power loom. It had a vertical warp, the reed fell with the weight of at least half a hundredweight and, to quote Gartwright's own words, "the springs which threw the shuttle were strong enough to throw a Congreive [sic] rocket" (Strickland 19.71:8—for background to the "rocket" comparison, see Congreve, Sir William). Nevertheless, it had the same three basics of weaving that still remain today in modern power looms: shedding or dividing the warp; picking or projecting the shuttle with the weft; and beating that pick of weft into place with a reed. This loom he proudly patented in 1785, and then he went to look at hand looms and was surprised to see how simply they operated. Further improvements to his own loom, covered by two more patents in 1786 and 1787, produced a machine with the more conventional horizontal layout that showed promise; however, the Manchester merchants whom he visited were not interested. He patented more improvements in 1788 as a result of the experience gained in 1786 through establishing a factory at Doncaster with power looms worked by a bull that were the ancestors of modern ones. Twenty-four looms driven by steam-power were installed in Manchester in 1791, but the mill was burned down and no one repeated the experiment. The Doncaster mill was sold in 1793, Cartwright having lost £30,000, However, in 1809 Parliament voted him £10,000 because his looms were then coming into general use.In 1789 he began working on a wool-combing machine which he patented in 1790, with further improvements in 1792. This seems to have been the earliest instance of mechanized combing. It used a circular revolving comb from which the long fibres or "top" were. carried off into a can, and a smaller cylinder-comb for teasing out short fibres or "noils", which were taken off by hand. Its output equalled that of twenty hand combers, but it was only relatively successful. It was employed in various Leicestershire and Yorkshire mills, but infringements were frequent and costly to resist. The patent was prolonged for fourteen years after 1801, but even then Cartwright did not make any profit. His 1792 patent also included a machine to make ropes with the outstanding and basic invention of the "cordelier" which he communicated to his friends, including Robert Fulton, but again it brought little financial benefit. As a result of these problems and the lack of remuneration for his inventions, Cartwright moved to London in 1796 and for a time lived in a house built with geometrical bricks of his own design.Other inventions followed fast, including a tread-wheel for cranes, metallic packing for pistons in steam-engines, and bread-making and brick-making machines, to mention but a few. He had already returned to agricultural improvements and he put forward suggestions in 1793 for a reaping machine. In 1801 he received a prize from the Board of Agriculture for an essay on husbandry, which was followed in 1803 by a silver medal for the invention of a three-furrow plough and in 1805 by a gold medal for his essay on manures. From 1801 to 1807 he ran an experimental farm on the Duke of Bedford's estates at Woburn.From 1786 until his death he was a prebendary of Lincoln. In about 1810 he bought a small farm at Hollanden near Sevenoaks, Kent, where he continued his inventions, both agricultural and general. Inventing to the last, he died at Hastings and was buried in Battle church.[br]Principal Honours and DistinctionsBoard of Agriculture Prize 1801 (for an essay on agriculture). Society of Arts, Silver Medal 1803 (for his three-furrow plough); Gold Medal 1805 (for an essay on agricultural improvements).Bibliography1785. British patent no. 1,270 (power loom).1786. British patent no. 1,565 (improved power loom). 1787. British patent no. 1,616 (improved power loom).1788. British patent no. 1,676 (improved power loom). 1790, British patent no. 1,747 (wool-combing machine).1790, British patent no. 1,787 (wool-combing machine).1792, British patent no. 1,876 (improved wool-combing machine and rope-making machine with cordelier).Further ReadingM.Strickland, 1843, A Memoir of the Life, Writings and Mechanical Inventions of Edmund Cartwright, D.D., F.R.S., London (remains the fullest biography of Cartwright).Dictionary of National Biography (a good summary of Cartwright's life). For discussions of Cartwright's weaving inventions, see: A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London; R.L. Hills, 1970, Power in the Industrial Revolution, Manchester. F.Nasmith, 1925–6, "Fathers of machine cotton manufacture", Transactions of theNewcomen Society 6.H.W.Dickinson, 1942–3, "A condensed history of rope-making", Transactions of the Newcomen Society 23.W.English, 1969, The Textile Industry, London (covers both his power loom and his wool -combing machine).RLHBiographical history of technology > Cartwright, Revd Edmund
-
6 незначительные улучшения фермерских построек
1) Agriculture: (или расширения) minor improvements to farm property2) Makarov: minor improvements to farm propertyУниверсальный русско-английский словарь > незначительные улучшения фермерских построек
-
7 Voelcker, John Augustus
SUBJECT AREA: Agricultural and food technology[br]b. 24 June 1854 Cirencester, Englandd. 1937 England[br]English agricultural chemist.[br]John Augustus Voelcker, as the son of Dr John Christopher Voelcker, grew up in an atmosphere of scientific agriculture and would have had contact with the leading agriculturists of the day. He was educated at University College School and then University College, London, where he obtained both a BA and a BSc Following in his father's footsteps, he studied for his PhD at Giessen University in Germany. At college he enjoyed athletics, an interest he was to pursue for the rest of his life. He decided to take up agricultural chemistry and was to succeed to all the public offices once held by his father, from whom he also took over the directorship of Woburn Farm. The experimental farm had been started in 1876 and was used to study the residual effects of chemicals in the soil. The results of these studies were used as the basis for compensation awards to tenant farmers giving up their farms. Voelcker broadened the range of studies to include trace elements in the soil, but by 1921 the Royal Agricultural Society of England had decided to give up the farm. This was a blow to Voelcker and occurred just before experiments elsewhere highlighted the importance of these elements to healthy plant growth. He continued the research at his own expense until the Rothampsted Experimental Station took over the farm in 1926. Aside from his achievements in Britain, Voelcker undertook a study tour of India in 1890, the report on which led to the appointment of an Agricultural Chemist, and the establishment of a scientific service for the Indian subcontinent.[br]Principal Honours and DistinctionsPresident, Royal Society of Public Analysts. Member of Council, Chemical Society, and Institute of Chemistry. Chairman, Farmers' Club.BibliographyMost of his publications were in the Journal of the Royal Agricultural Society of England, for which he wrote an annual report, and in another series of reports relating to Woburn Farm. The Improvements of Indian Agriculture was the result of his tour in 1890.Further ReadingJ.H.Gilbert, 1937, obituary Journal of the Royal Agricultural Society of England, pp. 464–8.Sir E.John Russell, A History of Agricultural Science in Great Britain.APBiographical history of technology > Voelcker, John Augustus
-
8 travail
1. masculine nouna. ( = activité) le travail work• avoir du travail/beaucoup de travail to have some work/a lot of work to do• horaire/vêtements de travail work schedule/clothes• conditions/méthodes/groupe/déjeuner de travail working conditions/methods/group/lunch• à travail égal, salaire égal equal pay for equal work• améliorer la communication, c'est tout un travail ! improving communications is quite a task!• c'est un travail de spécialiste (difficile à faire) it's a job for a specialist ; (bien fait) it's the work of a specialist• travaux de recherche/de construction research/building work• « pendant les travaux, le magasin restera ouvert » "business as usual during alterations"• « attention ! travaux ! » "caution! work in progress!" ; (sur la route) "roadworks ahead!" (Brit) "roadwork ahead!" (US)• avoir un travail intéressant/lucratif to have an interesting/a highly paid job• travail d'équipe or en équipe team workd. ( = façonnage) [de bois, cuir, fer] working2. compounds► un travail de fourmi a long, painstaking job* * *
1.
pl - aux tʀavaj, o nom masculin1) ( contraire de repos) work2) (tâche faite, à faire) job; (ensemble des tâches, besogne) work [U]j'ai un travail fou — I'm up to my eyes in work, I've got a lot of work on
3) ( fait d'exercer un emploi) work; ( emploi rémunéré) work [U], job; ( lieu) work4) Économie, Sociologie (activité, population active) labour [BrE] [U]division du travail — division of labour [BrE]
5) ( résultat d'un fonctionnement) (de machine, d'organe) work [U]6) ( ouvrage érudit) work ( sur on)7) ( façonnage)le travail de — working with ou in [métal, bois, pierre]
apprendre le travail du bois/métal — to learn woodwork/metalwork
8) (technique, exécution) workmanship9) Physique work10) ( action) (d'eau, érosion) action (de of); fig (d'imagination, inconscient) workings (pl) (de of)11) ( altération) ( de vin) fermentation, working; ( de bois) warping12) Médecine ( pendant un accouchement) labour [BrE]
2.
travaux nom masculin pluriel1) ( en chantier) work [U]; ( sur une route) roadworks GB, roadwork [U] UStravaux de construction — construction work [U]
‘fermé pour travaux’ — ( sur une devanture) ‘closed for repairs ou alterations’
‘attention, travaux’ — gén ‘caution, work in progress’; ( sur une route) ‘caution, road under repair’
2) (recherche, études) work [U] ( sur on)3) ( débats) deliberationsles travaux agricoles/de la ferme — agricultural/farm work [U]
travaux de couture — needlework [U]
•Phrasal Verbs:* * *tʀavaj, o travaux pl1. nm1) (= activité, effort) workJ'ai beaucoup de travail. — I've got a lot of work.
C'est un travail épuisant. — It's exhausting work.
se mettre au travail — to start work, to get down to work
outils de travail — working tools, work tools
2) (= tâche spécifique) jobDonne-lui un travail facile. — Give him an easy job.
3) (= emploi, gagne-pain) job, work no plIl a un travail intéressant. — He's got an interesting job.
Il est sans travail depuis un an. — He has been out of work for a year.
4) (= lieu) workAu travail, je m'entends bien avec mes collègues. — I get on well with my colleagues at work.
5) ÉCONOMIE (= ressource, facteur) labour Grande-Bretagne labor USAla législation du travail — labour law, labour legislation
6) MÉDECINE (de l'accouchement) labour Grande-Bretagne labor USA7) (= façonnage)2. travaux nmpl(= chantier) (de réparation, agricoles) work, (sur route) roadworks, [construction] building work, building* * *I.A nm1 ( contraire de repos) work; le travail intellectuel intellectual work; le travail scolaire schoolwork; ça demande des mois de travail it requires months of work; se mettre au travail to get down to work, to start work; être en plein travail to be busy working;2 (tâche faite, à faire) job; (ensemble des tâches, besogne) work ¢; faire un travail to do a job; distribuer le travail to allocate jobs; ce n'est pas mon travail it's not my job; c'est un travail de professionnel ( à faire) it's a job for a professional; ( bien fait) it's a very professional job; c'est un travail d'homme it's man's work; commencer un travail to start a job; mener un travail de recherche to do research work; avoir du travail to have work to do; j'ai un travail fou I'm up to my eyes in work, I've got a lot of work on; les enfants, ça donne du travail, les enfants, c'est du travail children make a lot of work; les gros travaux the heavy work; s'occuper à de petits travaux to do little jobs; faire quelques travaux de jardinage to do a few gardening jobs; (félicitations) c'est du beau travail! aussi iron you've done a great job on that; qu'est-ce que c'est que ce travail? what do you call this?; et voilà le travail! that's that done!;3 ( fait d'exercer un emploi) work; ( emploi rémunéré) work ¢, job; ( lieu) work; ne me téléphone pas à mon travail don't call me at work; chercher du/un travail to look for work/a job; bien content d'avoir du/un travail glad to be in work/to have a job; être sans travail to be out of work; donner du travail à qn ( employer) to give sb a job; reprendre le travail to go back to work; cesser le travail to stop work; aller au travail to go to work; être au travail to be at work; que fais-tu comme travail? what do you do?, what's your job?; il ne fait que son travail he's only doing his job; le travail en usine/de bureau factory/office ou clerical work; le travail temporaire/à mi-temps temporary/part-time work; un travail à mi-temps a part-time job; le travail en équipe team work; le travail en équipes shiftwork; le travail de nuit nightwork; il a un travail de nuit he works nights; le travail indépendant freelance work, self-employment; conditions/semaine de travail working conditions/week; vivre de son travail to work for one's living; ⇒ salaire;4 Écon, Sociol (activité, population active) labourGB ¢; le capital et le travail capital and labourGB; organisation/division du travail organization/division of labourGB; force de travail workforce; entrer dans le monde du travail to enter the world of work; la psychologie du travail industrial psychology;5 ( résultat d'un fonctionnement) (de machine, d'organe) work ¢; le travail du cœur the work done by the heart; le travail musculaire muscular effort, the work done by the muscles;6 ( ouvrage érudit) work (sur on); publier un travail sur la Renaissance to publish a work on the Renaissance;7 ( façonnage) le travail de working with ou in [métal, bois, pierre]; le travail de l'ivoire est difficile working with ou in ivory is difficult; apprendre le travail du bois/métal to learn woodwork/metalwork;8 (technique, exécution) workmanship; un travail superbe a superb piece of workmanship; un coffret d'un beau travail a beautifully made box; une dentelle d'un travail délicat a delicate piece of lacework;10 ( action) (d'eau, érosion) action (de of); fig (d'imagination, inconscient) workings (pl) (de of); le travail du temps the work of time;12 Méd ( pendant accouchement) labourGB; entrer/être en travail to go into/be in labourGB; salle de travail labourGB ward.B travaux nmpl1 ( en chantier) work (sg); ( sur une route) roadworks GB, roadwork ¢ US; travaux de construction/réfection/soutènement construction/renovation/retaining work ¢; travaux de terrassement earthworks; travaux d'aménagement ( de bâtiment) alterations (de to), improvements (de to); ( d'un site) redevelopment ¢ (de of); ( d'une route) roadworks (de on); faire faire des travaux dans sa maison to have work done in one's house; nous sommes en plein travaux we're in the middle of having some work done; ‘fermé pour travaux’ ( sur une devanture) ‘closed for repairs ou alterations’; ‘attention, travaux’ gén ‘caution, work in progress’; ( sur une route) ‘caution, road under repair’;2 (recherche, études) work ¢ (sur on); publier le résultat de ses travaux to publish the results of one's work;3 ( débats) (d'assemblée, de commission) deliberations;4 ( opérations de même nature) les travaux agricoles/de la ferme agricultural/farm work; travaux de couture needlework.travail à la chaîne assembly-line work; travail clandestin work for which no earnings are declared; travail à domicile working at or from home; travail des enfants child labourGB; travail d'intérêt général Jur community service; travail manuel manual work; travail au noir○ gén work for which no earnings are declared; ( exercice d'un second emploi non déclaré) moonlighting; travail aux pièces piece work; travail posté shift work; travail de Romain Herculean task; travail de titan = travail de Romain; travaux d'aiguille needlework ¢; travaux des champs agricultural ou farm work ¢; travaux de dame fancywork ¢; travaux dirigés, TD Univ practical (sg); travaux forcés Jur hard labourGB (sg); fig slave labourGB ¢; travaux manuels Scol handicrafts; travaux ménagers housework ¢; travaux pratiques, TP Scol, Univ practical work ¢; ( en laboratoire) lab work ¢; travaux préparatoires Jur ( pour un texte de loi) preliminary documents; travaux publics, TP ( travail) civil engineering ¢; ( ouvrages) civil engineering works, public works; travaux routiers roadworks GB, roadwork ¢ US.II.I( pluriel travaux) [travaj, o] nom masculinA.[ACTION]1. [occupation]le travail de jour/nuit day/night workje finis le travail à cinq heures I stop ou finish work at fiveun travail de longue haleine a long-term work ou projectle travail posté ou par roulement shift workle travail manuel manual work ou laboura. [occasionnel] undeclared casual work, moonlightingb. [comme pratique généralisée] black economya. [généralement] temporary workb. [dans un bureau] temping2. [tâches imposées] work3. [tâche déterminée] jobfaire un travail de recherche/traduction to do a piece of research/a translationc'est un travail de bagnard ou forçat it's back-breaking work ou a back-breaking jobc'est un travail de Romain ou de Titan it's a colossal job4. [efforts] (hard) workil a encore du travail s'il veut devenir champion he's still got a lot of work to do if he wants to be champion5. [exécution] workon lui a confié les peintures et elle a fait du bon/mauvais travail she was responsible for doing the painting and she made a good/bad job of itje ne retrouve pas une seule disquette, qu'est-ce que c'est que ce travail? I can't find a single floppy disc, what's going on here?6. [façonnage] workingelle est attirée par le travail du bois/de la soie she's interested in working with wood/with silk[responsabilité] jobchercher du ou un travail to be job-hunting, to be looking for a jobsans travail unemployed, jobless, out of work8. [dans le système capitaliste] labour9. [contrainte exercée - par la chaleur, l'érosion] action10. PHYSIOLOGIE [accouchement] labourle travail n'est pas commencé/est commencé the patient has not yet gone/has gone into labour[activité] workréduire le travail du cœur/des reins to lighten the strain on the heart/on the kidneysB.[RÉSULTAT, EFFET]1. [écrit] piece2. [transformation - généralement] work[modification interne - dans le bois] warping ; [ - dans le fromage] maturing ; [ - dans le vin] workingtravaux nom masculin pluriel‘fermé pendant les travaux’ ‘closed for ou during alterations’‘attention, travaux’ ‘caution, work in progress’travaux domestiques ou ménagers houseworka. [généralement] arts and craftsa. [généralement] practical workb. [en laboratoire] lab work2. [d'une commission] work————————au travail locution adverbialese mettre au travail to get down ou to set to workallez, au travail! come on, get to work!————————de travail locution adjectivale1. [horaire, séance] working[vêtement, camarade, permis] work (modificateur)2. [d'accouchement - période] labour (modificateur) ; [ - salle] labour (modificateur), delivery (modificateur)————————du travail locution adjectivale[accident, sociologie, législation] industrial————————en travail adverbeentrer en travail to go into ou to start labourII -
9 сельскохозяйственные постройки и сооружения, подлежащие амортизации
1) Economy: depreciable farm structures2) Makarov: depreciable farm structures and improvementsУниверсальный русско-английский словарь > сельскохозяйственные постройки и сооружения, подлежащие амортизации
-
10 Ingersoll, Simon
SUBJECT AREA: Mining and extraction technology[br]b. 3 March 1818 Stamford, Connecticut, USAd. 24 July 1894 Stamford, Connecticut, USA[br]American mechanic, inventor of a rock drill[br]Ingersoll worked on his father's farm and spent much of his time carrying out all kinds of mechanical experiments until 1839, when he went to Long Island, New York, to work on another farm. Having returned home in 1858, he received several patents for different mechanical devices, but he did not know how to turn his inventive talent into economic profit. His patents were sold to others for money to continue his work and support his family. In 1870, working again on Long Island, he by chance came into contact with New York City's largest contractor, who urged him to design a mechanical rock drill in order to replace hand drills in the rock-excavation business. Within one year Ingersoll built several models and a full-size machine at the machine shop of Henry Clark Sergeant, who contributed several improvements. They secured a joint patent in 1871, which was soon followed by a patent for a rock drill with tappet-valve motion.Although the Ingersoll Drill Company was established, he again sold the patent rights and went back to Stamford, where he continued his inventive work and gained several more patents for improving the rock drill. However, he never understood how to make a fortune from his patents, and he died almost penniless. His former partner, Sergeant, who had formed his own drill company on the basis of an entirely novel valve motion which led to compressed air being used as a power source, in 1888 established the Ingersoll- Sergeant Drill Company, which in 1905 merged with Rand Drill Company, which had been a competitor, to form the Ingersoll-Rand Company. This merger led to many achievements in manufacturing rock drills and air compressors at a time when there was growing demand for such machinery.[br]Further ReadingDictionary of American Biography (articles on both Ingersoll and Sergeant). W.L.Saunders, 1910, "The history of the rock drill and of the Ingersoll-Rand Company", Compressed Air Magazine: 3,679–80 (a lively description of the way in which he was encouraged to design the rock drill).WK -
11 незначительные улучшения (или расширения) фермерских построек
Agriculture: minor improvements to farm propertyУниверсальный русско-английский словарь > незначительные улучшения (или расширения) фермерских построек
-
12 обваловывание реки
Makarov: minor improvements to farm propertyУниверсальный русско-английский словарь > обваловывание реки
-
13 сельскохозяйственное постройки и сооружения, подлежащие амортизации
Agriculture: depreciable farm structures and improvementsУниверсальный русско-английский словарь > сельскохозяйственное постройки и сооружения, подлежащие амортизации
-
14 á-bót
f. used only in pl. ábætr, of improvements, esp. on a farm or estate; á. jarðar, D. N., D. I. i. 199.COMPD: ábótavant. -
15 Darby, Abraham
SUBJECT AREA: Metallurgy[br]b. 1678 near Dudley, Worcestershire, Englandd. 5 May 1717 Madely Court, Coalbrookdale, Shropshire, England[br]English ironmaster, inventor of the coke smelting of iron ore.[br]Darby's father, John, was a farmer who also worked a small forge to produce nails and other ironware needed on the farm. He was brought up in the Society of Friends, or Quakers, and this community remained important throughout his personal and working life. Darby was apprenticed to Jonathan Freeth, a malt-mill maker in Birmingham, and on completion of his apprenticeship in 1699 he took up the trade himself in Bristol. Probably in 1704, he visited Holland to study the casting of brass pots and returned to Bristol with some Dutch workers, setting up a brassworks at Baptist Mills in partnership with others. He tried substituting cast iron for brass in his castings, without success at first, but in 1707 he was granted a patent, "A new way of casting iron pots and other pot-bellied ware in sand without loam or clay". However, his business associates were unwilling to risk further funds in the experiments, so he withdrew his share of the capital and moved to Coalbrookdale in Shropshire. There, iron ore, coal, water-power and transport lay close at hand. He took a lease on an old furnace and began experimenting. The shortage and expense of charcoal, and his knowledge of the use of coke in malting, may well have led him to try using coke to smelt iron ore. The furnace was brought into blast in 1709 and records show that in the same year it was regularly producing iron, using coke instead of charcoal. The process seems to have been operating successfully by 1711 in the production of cast-iron pots and kettles, with some pig-iron destined for Bristol. Darby prospered at Coalbrookdale, employing coke smelting with consistent success, and he sought to extend his activities in the neighbourhood and in other parts of the country. However, ill health prevented him from pursuing these ventures with his previous energy. Coke smelting spread slowly in England and the continent of Europe, but without Darby's technological breakthrough the ever-increasing demand for iron for structures and machines during the Industrial Revolution simply could not have been met; it was thus an essential component of the technological progress that was to come.Darby's eldest son, Abraham II (1711–63), entered the Coalbrookdale Company partnership in 1734 and largely assumed control of the technical side of managing the furnaces and foundry. He made a number of improvements, notably the installation of a steam engine in 1742 to pump water to an upper level in order to achieve a steady source of water-power to operate the bellows supplying the blast furnaces. When he built the Ketley and Horsehay furnaces in 1755 and 1756, these too were provided with steam engines. Abraham II's son, Abraham III (1750–89), in turn, took over the management of the Coalbrookdale works in 1768 and devoted himself to improving and extending the business. His most notable achievement was the design and construction of the famous Iron Bridge over the river Severn, the world's first iron bridge. The bridge members were cast at Coalbrookdale and the structure was erected during 1779, with a span of 100 ft (30 m) and height above the river of 40 ft (12 m). The bridge still stands, and remains a tribute to the skill and judgement of Darby and his workers.[br]Further ReadingA.Raistrick, 1989, Dynasty of Iron Founders, 2nd edn, Ironbridge Gorge Museum Trust (the best source for the lives of the Darbys and the work of the company).H.R.Schubert, 1957, History of the British Iron and Steel Industry AD 430 to AD 1775, London: Routledge \& Kegan Paul.LRD -
16 Goucher, John
SUBJECT AREA: Agricultural and food technology[br]b. c.1831 Woodsetts, Yorkshire, Englandd. unknown[br]English engineer and inventor of the rubbing bars used on threshing machines and combine harvesters.[br]John Goucher was the son of a Yorkshire farmer who began his employed life as a carpenter. In 1851, at the age of 20, he was living on the farm of his father and employing four labourers. He developed and patented a means of wrapping wire around the individual bars of a threshing machine drum in such a way that grooves were formed in them. These grooves allowed the threshed grain to pass through without being crushed or otherwise damaged.[br]BibliographyOther patents credited to him range from devices for the propelling of ships in 1854, beaters for threshing machines in 1848, 1856, and again in 1861, stacking corn and other crops in the same year, improvements to steam boilers in 1863, for preserving life in water in 1867, threshing machines in 1873 and 1874, steam engines in 1884, and threshing machines in 1885.AP -
17 Parker, George Safford
SUBJECT AREA: Paper and printing[br]b. 1 November 1863 Shullsberg, Wisconsin, USAd. 19 July 1937 USA[br]American perfector of the fountain pen and founder of the Parker Pen Company.[br]Parker was born of English immigrant stock and grew up on his parents' farm in Iowa. He matriculated at Upper Iowa University and then joined the Valentine School of Telegraphy at Jamesville, Wisconsin: within a year he was on the staff. He supplemented his meagre school-master's pay by selling fountain pens to his students. He found that the pens needed constant attention, and his students were continually bringing them back to him for repair. The more he sold, the more he repaired. The work furnished him, first, with a detailed knowledge of the design and construction of the fountain pen and then with the thought that he could make a better pen himself. He gave up his teaching career and in 1888 began experimenting. He established his own company and in the following year he registered his first patent. The Parker Pen Company was formally incorporated on 8 March 1892.In the following years he patented many improvements, including the Lucky Curve pen and ink-feed system, patented in 1894. That was the real breakthrough for Parker and the pen was an immediate success. It solved the problem that had bedevilled the fountain pen before and since, by incorporating an ink-feed system that ensured a free and uniform flow of ink to where it was wanted, the nib, and not to other undesirable places.Parker established a reputation for manufacturing high-quality pens that looked good and worked well and reliably. The pens were in demand worldwide and the company grew.During the First World War, Parker introduced the Trench Pen for use on the Western Front. A tablet of pigment was inserted in a blind cap at the end of the pen. When this tablet was placed in the barrel and the barrel was filled with water, the pen was ready for use.Later developments included the Duofold pen, designed and launched in 1920. It had an enlarged ink capacity, a red barrel and a twentyfive-year guarantee on the nib. It became immensely popular with the public and was the flagship product throughout the 1920s and early 1930s, until the Vacumatic was launched in 1933.Parker handed over control of the company to this two sons, Kenneth and Russell, during the 1920s, remaining President until his retirement in 1933.[br]Further ReadingObituary, 1937, Jamesville Gazette 19 July (an appreciation by the architect Frank Lloyd Wright was published simultaneously). No biography has appeared, but Parker gave details of his career in an article in SystemsReview, October 1926.LRD -
18 Sholes, Christopher Latham
SUBJECT AREA: Paper and printing[br]b. 14 February 1819 Mooresburg, Pennsylvania, USAd. 17 February 1890 USA[br]American inventor of the first commercially successful typewriter.[br]Sholes was born on his parents' farm, of a family that had originally come from England. After leaving school at 14, he was apprenticed for four years to the local newspaper, the Danville Intelligencer. He moved with his parents to Wisconsin, where he followed his trade as journalist and printer, within a year becoming State Printer and taking charge of the House journal of the State Legislature. When he was 20 he left home and joined his brother in Madison, Wisconsin, on the staff of the Wisconsin Enquirer. After marrying, he took the editorship of the Southport Telegraph, until he became Postmaster of Southport. His experiences as journalist and postmaster drew him into politics and, in spite of the delicate nature of his health and personality, he served with credit as State Senator and in the State Assembly. In 1860 he moved to Milwaukee, where he became Editor of the local paper until President Lincoln offered him the post of Collector of Customs at Milwaukee.That position at last gave Sholes time to develop his undoubted inventive talents. With a machinist friend, Samuel W.Soule, he obtained a patent for a paging machine and another two years later for a machine for numbering the blank pages of a book serially. At the small machine shop where they worked, there was a third inventor, Carlos Glidden. It was Glidden who suggested to Sholes that, in view of his numbering machine, he would be well equipped to develop a letter printing machine. Glidden drew Sholes's attention to an account of a writing machine that had recently been invented in London by John Pratt, and Sholes was so seized with the idea that he devoted the rest of his life to perfecting the machine. With Glidden and Soule, he took out a patent for a typewriter on June 1868 followed by two further patents for improvements. Sholes struggled unsuccessfully for five years to exploit his invention; his two partners gave up their rights in it and finally, on 1 March 1873, Sholes himself sold his rights to the Remington Arms Company for $12,000. With their mechanical skills and equipment, Remingtons were able to perfect the Sholes typewriter and put it on the market. This, the first commercially successful typewriter, led to a revolution not only in office work, but also in work for women, although progress was slow at first. When the New York Young Women's Christian Association bought six Remingtons in 1881 to begin classes for young women, eight turned up for the first les-son; and five years later it was estimated that there were 60,000 female typists in the USA. Sholes said, "I feel that I have done something for the women who have always had to work so hard. This will more easily enable them to earn a living."Sholes continued his work on the typewriter, giving Remingtons the benefit of his results. His last patent was granted in 1878. Never very strong, Sholes became consumptive and spent much of his remaining nine years in the vain pursuit of health.[br]Bibliography23 June 1868, US patent no. 79,265 (the first typewriter patent).Further ReadingM.H.Adler, 1973, The Writing Machine, London: Allen \& Unwin.LRDBiographical history of technology > Sholes, Christopher Latham
-
19 Strutt, Jedediah
SUBJECT AREA: Textiles[br]b. 26 July 1726 South Normanton, near Alfreton, Derbyshire, Englandd. 7 May 1797 Derby, England[br]English inventor of a machine for making ribbed knitting.[br]Jedediah Strutt was the second of three sons of William, a small farmer and maltster at South Normanton, near Alfreton, Derbyshire, where the only industry was a little framework knitting. At the age of 14 Jedediah was apprenticed to Ralph Massey, a wheelwright near Derby, and lodged with the Woollats, whose daughter Elizabeth he later married in 1755. He moved to Leicester and in 1754 started farming at Blackwell, where an uncle had died and left him the stock on his farm. It was here that he made his knitting invention.William Lee's knitting machine remained in virtually the same form as he left it until the middle of the eighteenth century. The knitting industry moved away from London into the Midlands and in 1730 a Nottingham workman, using Indian spun yarn, produced the first pair of cotton hose ever made by mechanical means. This industry developed quickly and by 1750 was providing employment for 1,200 frameworkers using both wool and cotton in the Nottingham and Derby areas. It was against this background that Jedediah Strutt obtained patents for his Derby rib machine in 1758 and 1759.The machine was a highly ingenious mechanism, which when placed in front of an ordinary stocking frame enabled the fashionable ribbed stockings to be made by machine instead of by hand. To develop this invention, he formed a partnership first with his brother-in-law, William Woollat, and two leading Derby hosiers, John Bloodworth and Thomas Stamford. This partnership was dissolved in 1762 and another was formed with Woollat and the Nottingham hosier Samuel Need. Strutt's invention was followed by a succession of innovations which enabled framework knitters to produce almost every kind of mesh on their machines. In 1764 the stocking frame was adapted to the making of eyelet holes, and this later lead to the production of lace. In 1767 velvet was made on these frames, and two years later brocade. In this way Strutt's original invention opened up a new era for knitting. Although all these later improvements were not his, he was able to make a fortune from his invention. In 1762 he was made a freeman of Nottingham, but by then he was living in Derby. His business at Derby was concerned mainly with silk hose and he had a silk mill there.It was partly his need for cotton yarn and partly his wealth which led him into partnership with Richard Arkwright, John Smalley and David Thornley to exploit Arkwright's patent for spinning cotton by rollers. Together with Samuel Need, they financed the Arkwright partnership in 1770 to develop the horse-powered mill in Nottingham and then the water-powered mill at Cromford. Strutt gave advice to Arkwright about improving the machinery and helped to hold the partnership together when Arkwright fell out with his first partners. Strutt was also involved, in London, where he had a house, with the parliamentary proceedings over the passing of the Calico Act in 1774, which opened up the trade in British-manufactured all-cotton cloth.In 1776 Strutt financed the construction of his own mill at Helper, about seven miles (11 km) further down the Derwent valley below Cromford. This was followed by another at Milford, a little lower on the river. Strutt was also a partner with Arkwright and others in the mill at Birkacre, near Chorley in Lancashire. The Strutt mills were developed into large complexes for cotton spinning and many experiments were later carried out in them, both in textile machinery and in fireproof construction for the mills themselves. They were also important training schools for engineers.Elizabeth Strutt died in 1774 and Jedediah never married again. The family seem to have lived frugally in spite of their wealth, probably influenced by their Nonconformist background. He had built a house near the mills at Milford, but it was in his Derby house that Jedediah died in 1797. By the time of his death, his son William had long been involved with the business and became a more important cotton spinner than Jedediah.[br]Bibliography1758. British patent no. 722 (Derby rib machine). 1759. British patent no. 734 (Derby rib machine).Further ReadingFor the involvement of Strutt in Arkwright's spinning ventures, there are two books, the earlier of which is R.S.Fitton and A.P.Wadsworth, 1958, The Strutts and the Arkwrights, 1758–1830, Manchester, which has most of the details about Strutt's life. This has been followed by R.S.Fitton, 1989, The Arkwrights, Spinners of Fortune, Manchester.R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (for a general background to the textile industry of the period).W.Felkin, 1967, History of the Machine-wrought Hosiery and Lace Manufactures, reprint, Newton Abbot (orig. pub. 1867) (covers Strutt's knitting inventions).RLH -
20 Voelcker, John Christopher
SUBJECT AREA: Agricultural and food technology[br]b. 24 September 1822 Frankfurt am Main, Germanyd. 5 December 1884 England[br]German analytical chemist resident in England whose reports on feedstuffs and fertilizers had a considerable influence on the quality of these products.[br]The son of a merchant in the city of his birth, John Christopher had delicate health and required private tuition to overcome the loss of his early years of schooling. At the age of 22 he went to study chemistry at Göttingen University and then worked for a short time for Liebig at Giessen. In 1847 he obtained a post as Analyst and Consulting Chemist at the Agricultural Chemistry Association of Scotland's Edinburgh office, and two years later he became Professor of Chemistry at the Royal Agricultural College in Cirencester, retaining this post until 1862. In 1855 he was appointed Chemist to the Bath and West Agricultural Society, and in that capacity organized lectures and field trials, and in 1857 he also became Consulting Chemist to the Royal Agricultural Society of England. Initially he studied the properties of farmyard manure and also the capacity of the soil to absorb ammonia, potash and sodium. As Consulting Chemist to farmers he analysed feedstuffs and manures; his assessments of artificial manures did much to force improvements in standards. During the 1860s he worked on milk and dairy products. He published the results of his work each year in the Journal of the Royal Agricultural Society of England. In 1877 he became involved in the field trials initiated and funded by the Duke of Bedford on his Woburn farm, and he continued his association with this venture until his death.[br]Principal Honours and DistinctionsFRS. Founder and Vice-President, Institute of Chemistry of Great Britain and Northern Ireland 1877. Member Chemical Society 1849; he was a member of Council as well as its Vice-President at the time of his death. Member of the Board of Studies, Royal Agricultural College, Cirencester; Honorary Professor from 1882.BibliographyHis papers are to be found in the Journal of the Royal Agricultural Society of England, for which he began to write reports in 1855, and also in the Journal of the Bath and West Society.Further ReadingJ.H.Gilbert, 1844, obituary, Journal of the Royal Agricultural Society of England, pp. 308–21 (a detailed account).Sir E.John Russell, A History of Agricultural Science in Great Britain.See also: Voelcker, John AugustusAPBiographical history of technology > Voelcker, John Christopher
См. также в других словарях:
Farm to School — is a program through which schools buy and feature locally produced, farm fresh foods such as fruits and vegetables, eggs, honey, meat, and beans on their menus. Schools also incorporate nutrition based curriculum and provide students with… … Wikipedia
farm management — ▪ agriculture Introduction making (industrial engineering) and implementing of the decisions (agribusiness) involved in organizing and operating a farm for maximum production and profit. Farm management draws on agricultural economics for… … Universalium
Elizabeth Farm, New South Wales — Elizabeth Farm is an historic estate in Parramatta, a suburb of Sydney, New South Wales, Australia. Elizabeth Farm [ [http://www.hht.net.au/museums/ef/elizabeth farm : : Historic Houses Trust Elizabeth Farm : : ] ] was the family home of wool… … Wikipedia
Oliver Farm Equipment Company — Oliver Corporation redirects here. For the typewriter manufacturer, see Oliver Typewriter Company. Oliver 80 tractor The Oliver Farm Equipment Company was an American farm equipment manufacturer from the 20th century. It was formed as a the… … Wikipedia
Spafford Farm massacre — Infobox Military Conflict conflict=Spafford Farm Massacre caption=Monument near South Wayne, Wisconsin. partof=the Black Hawk War date=June 14, 1832 place= Near present day South Wayne, Wisconsin result=British Band victory combatant1= United… … Wikipedia
Ground improvements at British football stadia — A large number of English football clubs have ongoing schemes to redevelop existing grounds, or to move to newly constructed stadiums. A trend towards all seater stadiums was initially prescribed by the Taylor Report, and was originally a… … Wikipedia
United Farm Workers — UFW redirects here. For the GNU/Linux firewall software, see Uncomplicated Firewall. UFWA Full name United Farm Workers of America Founded 1962 Current affiliation date ballsac Country … Wikipedia
Broadwater Farm — infobox UK place country = England map type = Greater London region= London population= 3800 4000 official name= Broadwater Farm london borough= Haringey constituency westminster= Tottenham post town= LONDON postcode area= N postcode district=… … Wikipedia
Michigan Farm Bureau — The Michigan Farm Bureau was founded on the campus of Michigan State University in 1919. The organization s primary goal is to promote and represent the interests of its agricultural members within the state of Michigan. There are two types of… … Wikipedia
Shrimp farm — This article is about the farming of marine (saltwater) shrimp. For farming of fresh water species, see freshwater prawn farming. A shrimp farm is an aquaculture business for the cultivation of marine shrimp or prawnsfn|a for human consumption.… … Wikipedia
Marra Farm — Two women tending plants at Marra Farm Marra Farm, a 4 acre (1.6 ha) plot of land in Marra Desimone Park, South Park, Seattle, Washington is one of only two historic agricultural parcels inside Seattle city limits that retains an… … Wikipedia