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1 feature of invention
Патенты: отличительный признак изобретения -
2 feature of invention
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3 feature
особенность; характерная черта; признак; свойство- feature of novelty
- feature of process
- additional feature
- antecedent feature
- artistic feature
- characteristic feature
- chief feature
- common feature
- defective feature
- design feature
- disadvantageous feature
- distinctive feature
- distinguishing feature
- dominant feature
- essential feature
- fail-safe feature
- generic feature
- identifying feature
- infringing feature
- integral feature
- inventive feature
- known feature
- leading feature
- main feature
- nonessential feature
- novel feature
- outstanding feature
- patented feature
- protective feature
- schematic feature
- structural feature
- technical feature
- technological feature
- unpatented feature
- unsatisfactory feature* * * -
4 distinguishing feature of the invention
< jur> ■ Kennzeichen der Erfindung nEnglish-german technical dictionary > distinguishing feature of the invention
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5 marked feature of the invention
< jur> ■ ausgesprochenes Kennzeichen der Erfindung nEnglish-german technical dictionary > marked feature of the invention
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6 отличительный признак изобретения
Русско-английский словарь по патентам и товарным знакам > отличительный признак изобретения
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7 отличительный признак изобретения
Patents: feature of inventionУниверсальный русско-английский словарь > отличительный признак изобретения
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8 point
point [pwɛ̃]━━━━━━━━━2. compounds━━━━━━━━━1. <a. pointb. ( = endroit) place ; (Astronomy, mathematics) pointc. ( = position) (Aviation, nautical) position• et maintenant, le point sur la grève des transports and now, the latest on the transport striked. ( = marque) (Mus, morse, sur i) dot ; ( = ponctuation) full stop (Brit), period (US) ; ( = petite tache) spot• tu n'iras pas, un point c'est tout you're not going and that's all there is to ite. (sur devoir) markf. [de couture, tricot] stitch• faire le point de la situation ( = examiner) to take stock of the situation ; ( = faire un compte rendu) to sum up the situation► à point [fruit] just ripe ; [fromage] just right for eating ; [viande] medium• le rôti est cuit à point the roast is done to a turn► à point (nommé) [arriver, venir] just at the right moment• est-il possible d'être bête à ce point ! how stupid can you get? (inf)• elles se ressemblent à tel point or à ce point qu'on pourrait les confondre they look so alike that you could easily mistake one for the other► au point [photo] in focus ; [affaire] completely settled ; [technique, machine] perfected• ce n'est pas encore au point it isn't quite up to scratch yet► au point de + infinitif so much that• il aimait le Québec au point d'y passer toutes ses vacances he loved Quebec so much that he spent all his holidays there• il se détestent au point qu'ils ne se parlent plus they hate each other so much that they've stopped speaking► au point où• en être arrivé au point où... to have reached the point where...• on continue ? -- au point où on en est ! shall we go on? -- we've got this far so we might as well!► au plus haut point [détester, admirer] intensely• se méfier au plus haut point de qch to be highly sceptical about sth► mettre au point [+ photo, caméra] to focus ; [+ stratégie, technique] to perfect ; [+ médicament, invention, système] to develop ; [+ projet] to finalize• mettre une affaire au point avec qn to finalize all the details of a matter with sb► mise au point [d'appareil photo, caméra] focusing ; [de stratégie, technique] perfecting ; [de médicament, invention, système] development ; [de moteur] tuning ; [d'affaire, projet] finalizing ; ( = explication, correction) clarification• publier une mise au point to issue a statement (setting the record straight)► en tout point, en tous points in every respect2. <• vous avez un point de chute à Rome ? do you have somewhere to stay in Rome? ► point commun• nous voilà revenus au point de départ so we're back to square one (inf) ► point de distribution [d'eau] supply point ; (Business) distribution outlet• mettre un point d'honneur à faire qch to make it a point of honour to do sth ► point d'interrogation question mark• au point mort [voiture] in neutral ; [de négociations, affaires] at a standstill ► point mousse garter stitch► points de retraite points based on social security contributions that count towards one's pension• quel est votre point de vue sur ce sujet ? what's your point of view on this matter?* * *pwɛ̃
1.
nom masculin1) ( endroit) point2) ( situation) point; Nautisme positionêtre sur le point de faire — to be just about to do, to be on the point of doing
j'en suis toujours au même point (qu'hier/qu'il y a un an) — I'm still exactly where I was (yesterday/last year)
au point où j'en suis, ça n'a pas d'importance! — I've reached the point where it doesn't matter any more!
faire le point — Nautisme to take bearings; fig to take stock of the situation
3) ( degré)‘j'en aurais pleuré’ - ‘ah bon, à ce point?’ — ‘I could have cried’ - ‘really? it was that bad?’
il est têtu à un point! — (colloq) he's so incredibly stubborn!
jusqu'à un certain point — up to a (certain) point, to a certain extent
4) ( question particulière) point; ( dans un ordre du jour) item, pointen tout point, en tous points — in every respect ou way
5) ( marque visible) dot6) Jeux, Sport pointmarquer/perdre des points — lit, fig to score/to lose points
7) ( pour évaluer) mark GB, point USavoir sept points d'avance/de retard — to be seven marks ahead/behind
obtenir or avoir 27 points sur 40 — to get 27 out of 40
être un mauvais point pour quelqu'un/quelque chose — to be a black mark against somebody/something
8) ( dans un système de calcul) pointle permis à points — system whereby driving offender gets penalty points
9) Mathématique point10) Linguistique ( en ponctuation) full stop GB, period USpoint à la ligne — ( dans une dictée) full stop, new paragraph
point final — ( dans une dictée) full stop
mettre un point final à quelque chose — fig to put a stop ou an end to something
je n'irai pas, point final! — (colloq) I'm not going, full stop GB ou period US!
tu vas te coucher un point c'est tout! — (colloq) you're going to bed and that's final!
11) Musique dot12) ( en typographie) point14) (en couture, tricot) stitch
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(dated) adverbe not
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à point locution adverbiale1) ( en temps voulu) just in time2) Culinaire
4.
au point locutionêtre au point — [système, machine] to be well designed; [spectacle] to be well put together
mettre au point — ( élaborer) to perfect [système]; to work out, to devise [accord, plan]; to develop [vaccin, appareil]; ( régler) to adjust
mise au point — ( de système) perfecting; ( de vaccin) development; ( réglage) adjusting; Photographie focus; fig ( déclaration) clarifying statement
faire la mise au point — Photographie to focus
faire une mise au point — fig to set the record straight ( sur about)
Phrasal Verbs:••* * *pwɛ̃1. nm1) (= marque, signe) dot2) [ponctuation] full stop Grande-Bretagne period USA3) (= moment) pointNous en sommes au même point. — We have reached the same point.
J'étais sur le point de te téléphoner. — I was just about to phone you.
4) (= degré)à ce point abîmé que... — so damaged that...
au point que; à tel point que — so much so that
5) (au score) point6) (= aspect) pointJe ne suis pas d'accord sur ce point. — I don't agree on this point.
7) (= endroit) spot, point, (en géométrie) point8) COUTURE, TRICOT stitchpoint mousse — garter stitch, plain
9) CUISINE"Comment voulez-vous votre steak?" — "À point." — "How would you like your steak?" — "Medium."
faire le point NAVIGATION — to take a bearing, figto take stock
faire le point sur — to review, to take stock of
mettre au point [mécanisme, procédé] — to develop, [appareil-photo] to focus
2. advlit (= pas) notpoint n'est besoin de... — there is no need to...
point de... — no...
3. vbSee:* * *A nm1 ( endroit) point; un point précis du globe/sur une carte a particular point on the earth/on a map; un point de ravitaillement/ralliement a staging/rallying point; un point de rencontre a meeting point; point de vente (sales) outlet; serrure 3 points 3 point lock;2 ( situation) point; Naut position; être sur le point de faire to be just about to do, to be on the point of doing; j'étais sur le point de leur dire/d'abandonner/de partir I was just about to tell them/to give up/to leave, I was on the point of telling them/giving up/leaving; j'en suis toujours au même point (qu'hier/qu'il y a un an) I'm still exactly where I was (yesterday/last year); au point où j'en suis, ça n'a pas d'importance! I've reached the point where it doesn't matter any more!; il en est au point où il allume une cigarette en se levant he's got GB ou gotten US to the stage ou point where he lights a cigarette as soon as he gets up; faire le point Naut to take bearings; fig to take stock of the situation; faire le point sur la situation économique/sur la recherche scientifique fig to take stock of the economic situation/of scientific research; faire le point sur la circulation (routière)/l'actualité to give an up-to-the-minute report on the traffic news/current situation;3 ( degré) il m'agace/m'inquiète au plus haut point he annoys me/worries me intensely; la circulation était à ce point bloquée que j'ai dû laisser ma voiture au bord de la route the traffic was so bad that I had to leave my car on the side of the road; je ne le pensais pas bête/coléreux à ce point I didn't think he was that stupid/quick-tempered; ‘j'en aurais pleuré’-‘ah bon, à ce point?’ ‘I could have cried’-‘really? it was that bad?’; je sais à quel point elle est triste/sensible I know how sad/sensitive she is; si tu savais à quel point il m'agace! if you only knew how much he annoys me!; au point que to the extent that; à tel point que to such an extent that…; douloureux/endommagé à (un) tel or au point que so painful/badly damaged that; la situation s'est aggravée au point qu'ils ont dû appeler la police the situation became so bad that the police had to be called in; le temps s'est rafraîchi au point qu'il a fallu remettre le chauffage the weather got so cold that the heating had to be put back on; il est têtu à un point! he's so incredibly stubborn!; jusqu'à un certain point up to a (certain) point, to a certain extent;4 ( question particulière) point; ( dans un ordre du jour) item, point; un programme en trois points a three-point plan; un point fondamental/de détail (d'un texte) a basic/minor point (in a text); sur ce point on this point; j'aimerais revenir sur ce dernier point I would like to come back to that last point; un point de désaccord/litige a point of disagreement/contention; reprendre un texte point par point to go over a text point by point; en tout point, en tous points in every respect ou way; une politique en tous points désastreuse a policy that is disastrous in every respect; les deux modèles sont semblables en tous points the two models are alike in every respect;5 ( marque visible) gén dot; les villes sont marquées par un point towns are marked by a dot; il y a un point sur le i et le j there's a dot on the i and the j; un point lumineux/rouge dans le lointain a light/a red dot in the distance; bientôt, le navire ne fut qu'un point à l'horizon soon, the ship was a mere dot ou speck on the horizon; un point de colle a spot of glue; un point de rouille a speck of rust; points de graissage lubricating points; ⇒ i;6 Jeux, Sport point; marquer/perdre des points lit, fig to score/lose points; compter les points to keep (the) score; un point partout! one all!; battre son adversaire aux points to beat one's opponent on points; remporter une victoire aux points to win on points;7 ( pour évaluer) mark GB, point US; avoir sept points d'avance to be seven marks ahead; avoir dix points de retard to be ten marks behind; il m'a manqué trois points pour réussir I failed by three marks; enlever un point par faute to take a mark off for each mistake; obtenir or avoir 27 points sur 40 to get 27 out of 40; être un bon point pour to be a plus point for; être un mauvais point pour qn/qch to be a black mark against sb/sth;8 ( dans un système de calcul) point; la livre a perdu trois points the pound lost three points; le taux de chômage a augmenté de 0,8 points the unemployment rate rose by 0.8 points; le permis à points system whereby driving offender gets penalty points; il a perdu sept points dans les sondages he's gone down seven points in the polls;9 Math point; point d'intersection/d'inflexion point of intersection/of inflection;10 Ling ( en ponctuation) full stop GB, period US; mettre un point to put a full stop; point à la ligne ( dans une dictée) full stop, new paragraph; point final ( dans une dictée) full stop; mettre un point final à qch fig to put a stop ou an end to sth; je n'irai pas, point final○! I'm not going, full stop GB ou period US!; tu vas te coucher un point c'est tout○! you're going to bed and that's final!;11 Mus dot;12 Imprim point;13 Méd ( douleur) pain; avoir un point à la poitrine/à l'aine to have a pain in the chest/in the groin;14 (en couture, tricot) stitch; faire un point à qch to put a few stitches in sth; dentelle au point de Venise Venetian lace.B †adv not; tu ne tueras point Bible thou shalt not kill; je n'en ai point I don't have any; ‘tu es fâché?’-‘non point!’ ‘are you angry?’-‘not at all’.C à point loc adv venir/arriver à point to come/arrive just in time; venir/arriver or tomber à point nommé to come/arrive just at the right moment; faire cuire à point to cook [sth] medium rare [viande]; bifteck (cuit) à point medium rare steak; le camembert est à point the camembert is ready to eat.D au point loc adv, loc adj être au point [système, méthode, machine] to be well designed; [spectacle, émission] to be well put together; leur système/machine/spectacle n'est pas encore très au point their system/machine/show still needs some working on; le nouveau modèle est très au point the new model is very well designed; le spectacle n'était pas du tout au point the show wasn't up to scratch; le prototype n'est pas encore au point the prototype isn't quite ready yet; ça fait des semaines qu'ils répètent mais leur numéro n'est pas encore au point they've been rehearsing for weeks but they still haven't got GB ou gotten US it quite right; je ne suis pas au point pour les examens I'm not ready for the exams; mettre [qch] au point ( inventer) to perfect [théorie, système, méthode, technique]; to work out, to devise [accord, plan de paix, stratégie]; to develop [vaccin, médicament, appareil]; ( régler) to adjust [machine, mécanisme]; il leur reste deux semaines pour finir de mettre leur spectacle au point they've got two more weeks to put the finishing touches to their show; mettre au point sur qch Phot to focus on sth; mise au point Phot focus; fig ( déclaration) clarifying statement; la mise au point est automatique sur mon appareil my camera has automatic focus; faire la mise au point Phot to focus (sur on); faire une mise au point fig to set the record straight (sur about); mise au point ( invention) (de théorie, système, méthode, technique) perfecting; (de médicament, vaccin) development; ( réglage) (de machine, mécanisme) adjusting; Phot focus.point d'acupuncture Méd acupuncture point; point d'ancrage Aut anchor; fig base; point d'appui Mil base of operations; Phys fulcrum; gén support; les piliers servent de point d'appui à la charpente the roof structure is supported by the pillars; trouver un point d'appui à une échelle to find a support for a ladder; point arrière Cout back stitch; point d'attache base; point de bâti Cout tacking stitch; point blanc whitehead; point de blé ( en tricot) double moss stitch; point de boutonnière Cout buttonhole stitch; point cardinal Phys, Géog compass ou cardinal point; point de chaînette ( en broderie) chain stitch; point de chausson ( en broderie) herringbone stitch; point chaud trouble ou hot spot; les points chauds du globe the world's trouble spots; point de chute fig port of call; point commun mutual interest; nous avons beaucoup de points communs we have a lot in common; ils n'ont aucun point commun they have nothing in common; point de congestion† Méd slight congestion of the lung; point de côtes ( en tricot) rib; point de côté ( douleur) stitch; ( en couture) slip stitch; avoir un point de côté to have a stitch in one's side; point de croix ( en broderie) cross stitch; point de départ lit, fig starting point; nous revoilà à notre point de départ fig we're back to square one; point de devant Cout running stitch; point d'eau ( naturel) watering place; ( robinet) water tap GB ou faucet US; point d'ébullition boiling point; point d'épine ( en broderie) featherstitch; point d'exclamation Ling exclamation mark; point faible weak point; point de feston ( en broderie) blanket stitch; point fort strong point; point de fuite Art, Archit vanishing point; point de fusion melting point; point G G-spot; point d'interrogation Ling question mark; point de jersey ( en tricot) stocking stitch; point du jour daybreak; au point du jour at daybreak; point de liquéfaction liquefaction point; point de mire Mil target; fig focal point; point mousse ( en tricot) garter stitch; point mort Aut neutral; se mettre or passer/être au point mort Aut to put the car into/to be in neutral; être au point mort fig [affaires, consommation] to be at a standstill; [négociations] to be in a state of deadlock; point noir ( comédon) blackhead; ( problème) problem; ( sur la route) blackspot; l'inflation reste le seul point noir inflation is the only problem; point de non-retour point of no return; point d'orgue Mus pause sign; fig culmination; point d'ourlet Cout hemstitch; point de penalty penalty spot; point de piqûre Cout back stitch; point de presse Journ press briefing; point de repère ( spatial) landmark; (temporel, personnel) point of reference; point de reprise Cout darning stitch; point de retraite Prot Soc point which counts towards a retirement pension scheme; point de riz ( en tricot) moss stitch; point de surfil Cout whipstitch; point de suture Méd stitch; point de tige ( en broderie) stem stitch; point de torsade ( en tricot) cable stitch; point de vue ( paysage) viewpoint; ( opinion) point of view; du point de vue de la direction from the management's point of view; du point de vue de l'efficacité/du sens as far as efficiency/meaning is concerned; d'un point de vue économique c'est rentable/intéressant from a financial point of view it's profitable/attractive; points de suspension suspension points.être mal en point to be in a bad way.I[pwɛ̃] adverbe1. [en corrélation avec 'ne']2. [employé seul]du vin il y en avait, mais de champagne point there was wine, but no champagne ou not a drop of champagneil eut beau chercher, point de John he searched in vain, John was nowhere to be foundpoint de démocratie sans liberté de critiquer (there can be) no democracy without the freedom to criticize3. [en réponse négative]point du tout! not at all!, not in the least!II[pwɛ̃] nom masculinpoint lumineux spot ou point of lightpoint de rouille speck ou spot of rustun point de soudure a spot ou blob of solder3. [symbole graphique - en fin de phrase] full stop (UK), period (US) ; [ - sur un i ou un j] dot ; [ - en morse, en musique] dotj'ai dit non, point final ou un point c'est tout! (figuré) I said no and that's that ou that's final ou there's an end to it!mettre un point final à une discussion to terminate a discussion, to bring a discussion to an endpoint estimé/observé estimated/observed positiona. NAUTIQUE to take a bearing, to plot one's positionà 40 ans, on s'arrête et on fait le point when you reach 40, you stand back and take stock of your lifeet maintenant, le point sur la circulation and now, the latest traffic newspoint d'intersection/de tangence intersection/tangential pointen plusieurs points de la planète in different places ou spots on the planet9. [degré] point10. [élément - d'un texte, d'une théorie] point ; [ - d'un raisonnement] point, item ; [ - d'une description] feature, traitvoici un point d'histoire que je souhaiterais éclaircir I'd like to make clear what happened at that particular point in historypoint d'entente/de désaccord point of agreement/of disagreement11. [unité de valeur - dans un sondage, à la Bourse] point ; [ - de retraite] unit ; [ - du salaire de base] (grading) pointsa cote de popularité a gagné/perdu trois points his popularity rating has gone up/down by three pointsbattu aux points [en boxe] beaten on pointsfaire le point [le gagner] to win the pointb. [appréciation] mark (for good behaviour)12. COUTUREfaire un point à to put a stitch ou a few stitches inpoint de couture/crochet/tricot sewing/crochet/knitting stitch13. INFORMATIQUE [unité graphique] dot[emplacement]point d'accès/de retour entry/reentry point————————à ce point, à un tel point locution adverbialeton travail est dur à ce point? is your job so (very) ou that hard?j'en ai tellement assez que je vais démissionner — à ce point? I'm so fed up that I'm going to resign — that bad, is it?————————à ce point que, à (un) tel point que locution conjonctiveso much so that, to such a point thatles choses en étaient arrivées à un tel point que... things had reached such a pitch that...elle est déprimée, à ce point qu'elle ne veut plus voir personne she's so depressed that she won't see anyone anymore————————à point locution adjectivale[steak] medium[rôti] done to a turn[poire] just ou nicely ripeton bonhomme est à point, tu n'as plus qu'à enregistrer ses aveux (familier & figuré) your man's nice and ready now, all you've got to do is get the confession down on tape————————à point locution adverbiale1. CUISINE2. [au bon moment]a. [personne] to come (just) at the right timeb. [arrivée, décision] to be very timely————————à point nommé locution adverbialearriver à point nommé to arrive (just) at the right moment ou when needed, to arrive in the nick of timeau plus haut point locution adverbialeje le déteste au plus haut point I can't tell you how much I hate him, I absolutely loathe him————————au point locution adjectivale[moteur] tuned[machine] in perfect running order[technique] perfected[discours, plaidoyer] finalized[spectacle, artiste] readyton revers n'est pas encore au point your backhand isn't good enough ou up to scratch yetle son/l'image n'est pas au point the sound/the image isn't right————————au point locution adverbialea. [texte à imprimer] to editb. [discours, projet, rapport] to finalize, to put the finishing touches toc. [spectacle] to perfectd. [moteur] to tunee. [appareil photo] to (bring into) focusmettre les choses au point to put ou set the record straightmettons les choses au point: je refuse de travailler le dimanche let's get this ou things straight: I refuse to work Sundaysaprès cette discussion, j'ai tenu à mettre les choses au point following that discussion, I insisted on putting ou setting the record straight————————au point de locution prépositionnelle————————au point du jour locution adverbiale(littéraire) at dawn ou daybreakau point où locution conjonctivenous sommes arrivés au point où... we've reached the point ou stage where...au point où j'en suis, autant que je continue having got this far, I might as well carry onau point où en sont les choses as things stand, the way things are (now)————————au point que locution conjonctiveso much that, so... thatil était très effrayé, au point qu'il a essayé de se sauver he was so frightened that he tried to run awaypoint par point locution adverbialesur le point de locution prépositionnelleêtre sur le point de faire quelque chose to be about to do ou on the point of doing ou on the verge of doing somethingj'étais sur le point de partir I was about to ou going to leavesur le point de pleurer on the verge of tears ou of crying————————point d'ancrage nom masculin————————point d'appui nom masculin1. [d'un levier] fulcrumpoint de chute nom masculin2. (figuré)————————point culminant nom masculinquel est le point culminant des Alpes? what is the highest point ou peak in the Alps?point de départ nom masculin————————point faible nom masculinson point faible, c'est sa susceptibilité his touchiness is his weak spot ou point————————point fort nom masculin[d'une personne, d'une entreprise] strong point[d'un joueur de tennis] best shotles maths n'ont jamais été mon point fort I was never any good at maths, maths was never my strong point————————point mort nom masculin————————point noir nom masculina. [encombré] a heavily congested areab. [dangereux] an accident blackspot————————point sensible nom masculin1. [endroit douloureux] tender ou sore spot2. MILITAIRE key ou strategic target3. (figuré)a. [chez quelqu'un] to touch on a sore spotb. [dans un problème] to touch on a sensitive area -
9 Crompton, Samuel
SUBJECT AREA: Textiles[br]b. 3 December 1753 Firwood, near Bolton, Lancashire, Englandd. 26 June 1827 Bolton, Lancashire, England[br]English inventor of the spinning mule.[br]Samuel Crompton was the son of a tenant farmer, George, who became the caretaker of the old house Hall-i-th-Wood, near Bolton, where he died in 1759. As a boy, Samuel helped his widowed mother in various tasks at home, including weaving. He liked music and made his own violin, with which he later was to earn some money to pay for tools for building his spinning mule. He was set to work at spinning and so in 1769 became familiar with the spinning jenny designed by James Hargreaves; he soon noticed the poor quality of the yarn produced and its tendency to break. Crompton became so exasperated with the jenny that in 1772 he decided to improve it. After seven years' work, in 1779 he produced his famous spinning "mule". He built the first one entirely by himself, principally from wood. He adapted rollers similar to those already patented by Arkwright for drawing out the cotton rovings, but it seems that he did not know of Arkwright's invention. The rollers were placed at the back of the mule and paid out the fibres to the spindles, which were mounted on a moving carriage that was drawn away from the rollers as the yarn was paid out. The spindles were rotated to put in twist. At the end of the draw, or shortly before, the rollers were stopped but the spindles continued to rotate. This not only twisted the yarn further, but slightly stretched it and so helped to even out any irregularities; it was this feature that gave the mule yarn extra quality. Then, after the spindles had been turned backwards to unwind the yarn from their tips, they were rotated in the spinning direction again and the yarn was wound on as the carriage was pushed up to the rollers.The mule was a very versatile machine, making it possible to spin almost every type of yarn. In fact, Samuel Crompton was soon producing yarn of a much finer quality than had ever been spun in Bolton, and people attempted to break into Hall-i-th-Wood to see how he produced it. Crompton did not patent his invention, perhaps because it consisted basically of the essential features of the earlier machines of Hargreaves and Arkwright, or perhaps through lack of funds. Under promise of a generous subscription, he disclosed his invention to the spinning industry, but was shabbily treated because most of the promised money was never paid. Crompton's first mule had forty-eight spindles, but it did not long remain in its original form for many people started to make improvements to it. The mule soon became more popular than Arkwright's waterframe because it could spin such fine yarn, which enabled weavers to produce the best muslin cloth, rivalling that woven in India and leading to an enormous expansion in the British cotton-textile industry. Crompton eventually saved enough capital to set up as a manufacturer himself and around 1784 he experimented with an improved carding engine, although he was not successful. In 1800, local manufacturers raised a sum of £500 for him, and eventually in 1812 he received a government grant of £5,000, but this was trifling in relation to the immense financial benefits his invention had conferred on the industry, to say nothing of his expenses. When Crompton was seeking evidence in 1811 to support his claim for financial assistance, he found that there were 4,209,570 mule spindles compared with 155,880 jenny and 310,516 waterframe spindles. He later set up as a bleacher and again as a cotton manufacturer, but only the gift of a small annuity by his friends saved him from dying in total poverty.[br]Further ReadingH.C.Cameron, 1951, Samuel Crompton, Inventor of the Spinning Mule, London (a rather discursive biography).Dobson \& Barlow Ltd, 1927, Samuel Crompton, the Inventor of the Spinning Mule, Bolton.G.J.French, 1859, The Life and Times of Samuel Crompton, Inventor of the Spinning Machine Called the Mule, London.The invention of the mule is fully described in H. Gatling, 1970, The Spinning Mule, Newton Abbot; W.English, 1969, The Textile Industry, London; R.L.Hills, 1970, Power in the Industrial Revolution, Manchester.C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press (provides a brief account).RLH -
10 Swan, Sir Joseph Wilson
[br]b. 31 October 1828 Sunderland, Englandd. 27 May 1914 Warlingham, Surrey, England[br]English chemist, inventor in Britain of the incandescent electric lamp and of photographic processes.[br]At the age of 14 Swan was apprenticed to a Sunderland firm of druggists, later joining John Mawson who had opened a pharmacy in Newcastle. While in Sunderland Swan attended lectures at the Athenaeum, at one of which W.E. Staite exhibited electric-arc and incandescent lighting. The impression made on Swan prompted him to conduct experiments that led to his demonstration of a practical working lamp in 1879. As early as 1848 he was experimenting with carbon as a lamp filament, and by 1869 he had mounted a strip of carbon in a vessel exhausted of air as completely as was then possible; however, because of residual air, the filament quickly failed.Discouraged by the cost of current from primary batteries and the difficulty of achieving a good vacuum, Swan began to devote much of his attention to photography. With Mawson's support the pharmacy was expanded to include a photographic business. Swan's interest in making permanent photographic records led him to patent the carbon process in 1864 and he discovered how to make a sensitive dry plate in place of the inconvenient wet collodian process hitherto in use. He followed this success with the invention of bromide paper, the subject of a British patent in 1879.Swan resumed his interest in electric lighting. Sprengel's invention of the mercury pump in 1865 provided Swan with the means of obtaining the high vacuum he needed to produce a satisfactory lamp. Swan adopted a technique which was to become an essential feature in vacuum physics: continuing to heat the filament during the exhaustion process allowed the removal of absorbed gases. The inventions of Gramme, Siemens and Brush provided the source of electrical power at reasonable cost needed to make the incandescent lamp of practical service. Swan exhibited his lamp at a meeting in December 1878 of the Newcastle Chemical Society and again the following year before an audience of 700 at the Newcastle Literary and Philosophical Society. Swan's failure to patent his invention immediately was a tactical error as in November 1879 Edison was granted a British patent for his original lamp, which, however, did not go into production. Parchmentized thread was used in Swan's first commercial lamps, a material soon superseded by the regenerated cellulose filament that he developed. The cellulose filament was made by extruding a solution of nitro-cellulose in acetic acid through a die under pressure into a coagulating fluid, and was used until the ultimate obsolescence of the carbon-filament lamp. Regenerated cellulose became the first synthetic fibre, the further development and exploitation of which he left to others, the patent rights for the process being sold to Courtaulds.Swan also devised a modification of Planté's secondary battery in which the active material was compressed into a cellular lead plate. This has remained the central principle of all improvements in secondary cells, greatly increasing the storage capacity for a given weight.[br]Principal Honours and DistinctionsKnighted 1904. FRS 1894. President, Institution of Electrical Engineers 1898. First President, Faraday Society 1904. Royal Society Hughes Medal 1904. Chevalier de la Légion d'Honneur 1881.Bibliography2 January 1880, British patent no. 18 (incandescent electric lamp).24 May 1881, British patent no. 2,272 (improved plates for the Planté cell).1898, "The rise and progress of the electrochemical industries", Journal of the Institution of Electrical Engineers 27:8–33 (Swan's Presidential Address to the Institution of Electrical Engineers).Further ReadingM.E.Swan and K.R.Swan, 1968, Sir Joseph Wilson Swan F.R.S., Newcastle upon Tyne (a detailed account).R.C.Chirnside, 1979, "Sir Joseph Swan and the invention of the electric lamp", IEEElectronics and Power 25:96–100 (a short, authoritative biography).GWBiographical history of technology > Swan, Sir Joseph Wilson
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11 characteristic
<tech.gen> (figure, number; e.g. on tool tips) ■ Kennziffer f<tech.gen> (e.g. output power, torque, pressure, temperature, stress, voltage) ■ Kennlinie f ; Kennkurve f ; charakteristische Kurve f rar< food> (wine having the distinctive odors and flavors of its grape variety) ■ artig<i&c> (curve; e.g. torque vs. engine speed) ■ Kurve f -
12 Kennzeichen der Erfindung
n < jur> ■ distinguishing feature of the inventionGerman-english technical dictionary > Kennzeichen der Erfindung
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13 Edison, Thomas Alva
SUBJECT AREA: Architecture and building, Automotive engineering, Electricity, Electronics and information technology, Metallurgy, Photography, film and optics, Public utilities, Recording, Telecommunications[br]b. 11 February 1847 Milan, Ohio, USAd. 18 October 1931 Glenmont[br]American inventor and pioneer electrical developer.[br]He was the son of Samuel Edison, who was in the timber business. His schooling was delayed due to scarlet fever until 1855, when he was 8½ years old, but he was an avid reader. By the age of 14 he had a job as a newsboy on the railway from Port Huron to Detroit, a distance of sixty-three miles (101 km). He worked a fourteen-hour day with a stopover of five hours, which he spent in the Detroit Free Library. He also sold sweets on the train and, later, fruit and vegetables, and was soon making a profit of $20 a week. He then started two stores in Port Huron and used a spare freight car as a laboratory. He added a hand-printing press to produce 400 copies weekly of The Grand Trunk Herald, most of which he compiled and edited himself. He set himself to learn telegraphy from the station agent at Mount Clements, whose son he had saved from being run over by a freight car.At the age of 16 he became a telegraphist at Port Huron. In 1863 he became railway telegraphist at the busy Stratford Junction of the Grand Trunk Railroad, arranging a clock with a notched wheel to give the hourly signal which was to prove that he was awake and at his post! He left hurriedly after failing to hold a train which was nearly involved in a head-on collision. He usually worked the night shift, allowing himself time for experiments during the day. His first invention was an arrangement of two Morse registers so that a high-speed input could be decoded at a slower speed. Moving from place to place he held many positions as a telegraphist. In Boston he invented an automatic vote recorder for Congress and patented it, but the idea was rejected. This was the first of a total of 1180 patents that he was to take out during his lifetime. After six years he resigned from the Western Union Company to devote all his time to invention, his next idea being an improved ticker-tape machine for stockbrokers. He developed a duplex telegraphy system, but this was turned down by the Western Union Company. He then moved to New York.Edison found accommodation in the battery room of Law's Gold Reporting Company, sleeping in the cellar, and there his repair of a broken transmitter marked him as someone of special talents. His superior soon resigned, and he was promoted with a salary of $300 a month. Western Union paid him $40,000 for the sole rights on future improvements on the duplex telegraph, and he moved to Ward Street, Newark, New Jersey, where he employed a gathering of specialist engineers. Within a year, he married one of his employees, Mary Stilwell, when she was only 16: a daughter, Marion, was born in 1872, and two sons, Thomas and William, in 1876 and 1879, respectively.He continued to work on the automatic telegraph, a device to send out messages faster than they could be tapped out by hand: that is, over fifty words per minute or so. An earlier machine by Alexander Bain worked at up to 400 words per minute, but was not good over long distances. Edison agreed to work on improving this feature of Bain's machine for the Automatic Telegraph Company (ATC) for $40,000. He improved it to a working speed of 500 words per minute and ran a test between Washington and New York. Hoping to sell their equipment to the Post Office in Britain, ATC sent Edison to England in 1873 to negotiate. A 500-word message was to be sent from Liverpool to London every half-hour for six hours, followed by tests on 2,200 miles (3,540 km) of cable at Greenwich. Only confused results were obtained due to induction in the cable, which lay coiled in a water tank. Edison returned to New York, where he worked on his quadruplex telegraph system, tests of which proved a success between New York and Albany in December 1874. Unfortunately, simultaneous negotiation with Western Union and ATC resulted in a lawsuit.Alexander Graham Bell was granted a patent for a telephone in March 1876 while Edison was still working on the same idea. His improvements allowed the device to operate over a distance of hundreds of miles instead of only a few miles. Tests were carried out over the 106 miles (170 km) between New York and Philadelphia. Edison applied for a patent on the carbon-button transmitter in April 1877, Western Union agreeing to pay him $6,000 a year for the seventeen-year duration of the patent. In these years he was also working on the development of the electric lamp and on a duplicating machine which would make up to 3,000 copies from a stencil. In 1876–7 he moved from Newark to Menlo Park, twenty-four miles (39 km) from New York on the Pennsylvania Railway, near Elizabeth. He had bought a house there around which he built the premises that would become his "inventions factory". It was there that he began the use of his 200- page pocket notebooks, each of which lasted him about two weeks, so prolific were his ideas. When he died he left 3,400 of them filled with notes and sketches.Late in 1877 he applied for a patent for a phonograph which was granted on 19 February 1878, and by the end of the year he had formed a company to manufacture this totally new product. At the time, Edison saw the device primarily as a business aid rather than for entertainment, rather as a dictating machine. In August 1878 he was granted a British patent. In July 1878 he tried to measure the heat from the solar corona at a solar eclipse viewed from Rawlins, Wyoming, but his "tasimeter" was too sensitive.Probably his greatest achievement was "The Subdivision of the Electric Light" or the "glow bulb". He tried many materials for the filament before settling on carbon. He gave a demonstration of electric light by lighting up Menlo Park and inviting the public. Edison was, of course, faced with the problem of inventing and producing all the ancillaries which go to make up the electrical system of generation and distribution-meters, fuses, insulation, switches, cabling—even generators had to be designed and built; everything was new. He started a number of manufacturing companies to produce the various components needed.In 1881 he built the world's largest generator, which weighed 27 tons, to light 1,200 lamps at the Paris Exhibition. It was later moved to England to be used in the world's first central power station with steam engine drive at Holborn Viaduct, London. In September 1882 he started up his Pearl Street Generating Station in New York, which led to a worldwide increase in the application of electric power, particularly for lighting. At the same time as these developments, he built a 1,300yd (1,190m) electric railway at Menlo Park.On 9 August 1884 his wife died of typhoid. Using his telegraphic skills, he proposed to 19-year-old Mina Miller in Morse code while in the company of others on a train. He married her in February 1885 before buying a new house and estate at West Orange, New Jersey, building a new laboratory not far away in the Orange Valley.Edison used direct current which was limited to around 250 volts. Alternating current was largely developed by George Westinghouse and Nicola Tesla, using transformers to step up the current to a higher voltage for long-distance transmission. The use of AC gradually overtook the Edison DC system.In autumn 1888 he patented a form of cinephotography, the kinetoscope, obtaining film-stock from George Eastman. In 1893 he set up the first film studio, which was pivoted so as to catch the sun, with a hinged roof which could be raised. In 1894 kinetoscope parlours with "peep shows" were starting up in cities all over America. Competition came from the Latham Brothers with a screen-projection machine, which Edison answered with his "Vitascope", shown in New York in 1896. This showed pictures with accompanying sound, but there was some difficulty with synchronization. Edison also experimented with captions at this early date.In 1880 he filed a patent for a magnetic ore separator, the first of nearly sixty. He bought up deposits of low-grade iron ore which had been developed in the north of New Jersey. The process was a commercial success until the discovery of iron-rich ore in Minnesota rendered it uneconomic and uncompetitive. In 1898 cement rock was discovered in New Village, west of West Orange. Edison bought the land and started cement manufacture, using kilns twice the normal length and using half as much fuel to heat them as the normal type of kiln. In 1893 he met Henry Ford, who was building his second car, at an Edison convention. This started him on the development of a battery for an electric car on which he made over 9,000 experiments. In 1903 he sold his patent for wireless telegraphy "for a song" to Guglielmo Marconi.In 1910 Edison designed a prefabricated concrete house. In December 1914 fire destroyed three-quarters of the West Orange plant, but it was at once rebuilt, and with the threat of war Edison started to set up his own plants for making all the chemicals that he had previously been buying from Europe, such as carbolic acid, phenol, benzol, aniline dyes, etc. He was appointed President of the Navy Consulting Board, for whom, he said, he made some forty-five inventions, "but they were pigeonholed, every one of them". Thus did Edison find that the Navy did not take kindly to civilian interference.In 1927 he started the Edison Botanic Research Company, founded with similar investment from Ford and Firestone with the object of finding a substitute for overseas-produced rubber. In the first year he tested no fewer than 3,327 possible plants, in the second year, over 1,400, eventually developing a variety of Golden Rod which grew to 14 ft (4.3 m) in height. However, all this effort and money was wasted, due to the discovery of synthetic rubber.In October 1929 he was present at Henry Ford's opening of his Dearborn Museum to celebrate the fiftieth anniversary of the incandescent lamp, including a replica of the Menlo Park laboratory. He was awarded the Congressional Gold Medal and was elected to the American Academy of Sciences. He died in 1931 at his home, Glenmont; throughout the USA, lights were dimmed temporarily on the day of his funeral.[br]Principal Honours and DistinctionsMember of the American Academy of Sciences. Congressional Gold Medal.Further ReadingM.Josephson, 1951, Edison, Eyre \& Spottiswode.R.W.Clark, 1977, Edison, the Man who Made the Future, Macdonald \& Jane.IMcN -
14 Huygens, Christiaan
SUBJECT AREA: Horology[br]b. 14 April 1629 The Hague, the Netherlandsd. 8 June 1695 The Hague, the Netherlands[br]Dutch scientist who was responsible for two of the greatest advances in horology: the successful application of both the pendulum to the clock and the balance spring to the watch.[br]Huygens was born into a cultured and privileged class. His father, Constantijn, was a poet and statesman who had wide interests. Constantijn exerted a strong influence on his son, who was educated at home until he reached the age of 16. Christiaan studied law and mathematics at Ley den University from 1645 to 1647, and continued his studies at the Collegium Arausiacum in Breda until 1649. He then lived at The Hague, where he had the means to devote his time entirely to study. In 1666 he became a Member of the Académie des Sciences in Paris and settled there until his return to The Hague in 1681. He also had a close relationship with the Royal Society and visited London on three occasions, meeting Newton on his last visit in 1689. Huygens had a wide range of interests and made significant contributions in mathematics, astronomy, optics and mechanics. He also made technical advances in optical instruments and horology.Despite the efforts of Burgi there had been no significant improvement in the performance of ordinary clocks and watches from their inception to Huygens's time, as they were controlled by foliots or balances which had no natural period of oscillation. The pendulum appeared to offer a means of improvement as it had a natural period of oscillation that was almost independent of amplitude. Galileo Galilei had already pioneered the use of a freely suspended pendulum for timing events, but it was by no means obvious how it could be kept swinging and used to control a clock. Towards the end of his life Galileo described such a. mechanism to his son Vincenzio, who constructed a model after his father's death, although it was not completed when he himself died in 1642. This model appears to have been copied in Italy, but it had little influence on horology, partly because of the circumstances in which it was produced and possibly also because it differed radically from clocks of that period. The crucial event occurred on Christmas Day 1656 when Huygens, quite independently, succeeded in adapting an existing spring-driven table clock so that it was not only controlled by a pendulum but also kept it swinging. In the following year he was granted a privilege or patent for this clock, and several were made by the clockmaker Salomon Coster of The Hague. The use of the pendulum produced a dramatic improvement in timekeeping, reducing the daily error from minutes to seconds, but Huygens was aware that the pendulum was not truly isochronous. This error was magnified by the use of the existing verge escapement, which made the pendulum swing through a large arc. He overcame this defect very elegantly by fitting cheeks at the pendulum suspension point, progressively reducing the effective length of the pendulum as the amplitude increased. Initially the cheeks were shaped empirically, but he was later able to show that they should have a cycloidal shape. The cheeks were not adopted universally because they introduced other defects, and the problem was eventually solved more prosaically by way of new escapements which reduced the swing of the pendulum. Huygens's clocks had another innovatory feature: maintaining power, which kept the clock going while it was being wound.Pendulums could not be used for portable timepieces, which continued to use balances despite their deficiencies. Robert Hooke was probably the first to apply a spring to the balance, but his efforts were not successful. From his work on the pendulum Huygens was well aware of the conditions necessary for isochronism in a vibrating system, and in January 1675, with a flash of inspiration, he realized that this could be achieved by controlling the oscillations of the balance with a spiral spring, an arrangement that is still used in mechanical watches. The first model was made for Huygens in Paris by the clockmaker Isaac Thuret, who attempted to appropriate the invention and patent it himself. Huygens had for many years been trying unsuccessfully to adapt the pendulum clock for use at sea (in order to determine longitude), and he hoped that a balance-spring timekeeper might be better suited for this purpose. However, he was disillusioned as its timekeeping proved to be much more susceptible to changes in temperature than that of the pendulum clock.[br]Principal Honours and DistinctionsFRS 1663. Member of the Académie Royale des Sciences 1666.BibliographyFor his complete works, see Oeuvres complètes de Christian Huygens, 1888–1950, 22 vols, The Hague.1658, Horologium, The Hague; repub., 1970, trans. E.L.Edwardes, AntiquarianHorology 7:35–55 (describes the pendulum clock).1673, Horologium Oscillatorium, Paris; repub., 1986, The Pendulum Clock or Demonstrations Concerning the Motion ofPendula as Applied to Clocks, trans.R.J.Blackwell, Ames.The balance spring watch was first described in Journal des Sçavans 25 February 1675, and translated in Philosophical Transactions of the Royal Society (1675) 4:272–3.Further ReadingH.J.M.Bos, 1972, Dictionary of Scientific Biography, ed. C.C.Gillispie, Vol. 6, New York, pp. 597–613 (for a fuller account of his life and scientific work, but note the incorrect date of his death).R.Plomp, 1979, Spring-Driven Dutch Pendulum Clocks, 1657–1710, Schiedam (describes Huygens's application of the pendulum to the clock).S.A.Bedini, 1991, The Pulse of Time, Florence (describes Galileo's contribution of the pendulum to the clock).J.H.Leopold, 1982, "L"Invention par Christiaan Huygens du ressort spiral réglant pour les montres', Huygens et la France, Paris, pp. 154–7 (describes the application of the balance spring to the watch).A.R.Hall, 1978, "Horology and criticism", Studia Copernica 16:261–81 (discusses Hooke's contribution).DV -
15 ausgesprochenes Kennzeichen der Erfindung
n < jur> ■ marked feature of the inventionGerman-english technical dictionary > ausgesprochenes Kennzeichen der Erfindung
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16 primer
primer [pʀime]➭ TABLE 11. transitive verba. ( = surpasser) to prevail overb. ( = récompenser) to award a prize to2. intransitive verb( = dominer) to be the prime feature ; ( = compter, valoir) to be of prime importance* * *pʀime
1.
1) ( l'emporter sur) to take precedence over, to prevail over2) ( récompenser) to award a prize to [œuvre, animal]
2.
primer sur verbe transitif indirect controv = primer 1. 1
3.
pour moi, c'est la qualité qui prime — what counts for me is quality
dans ce sorbet, c'est le cassis qui prime — blackcurrant is the dominant flavour [BrE] in this sorbet
* * *pʀime1. vt(= récompenser) [personne] to award a prize toLe film a été primé au Festival de Cannes. — The film won a prize at the Cannes Film Festival.
2. vi(= l'emporter) to dominate, [sentiment, impression] to prevailLe collectif prime sur l'individu. — The collective good prevails over the individual.
* * *primer verb table: aimerA vtr1 ( l'emporter sur) to take precedence over, to prevail over; chez cet auteur, l'émotion prime la réflexion in this author's work emotion prevails over thought;2 ( récompenser) to award a prize to [œuvre, animal]; ce chien a été primé this dog won a prize; bête primée prize-winning animal; film primé award-winning film; ce film a été primé this film won an award.C vi ( dominer) dans ce sorbet, c'est le cassis qui prime blackcurrant is the dominant flavourGB in this sorbet; chez lui, c'est l'imagination qui prime with him, imagination is all-important ou is of prime importance; pour eux, c'est la quantité qui prime for them, it's quantity that matters most ou that takes priority.[prime] verbe transitif1. [récompenser - animal, invention] to award a prize toelle a été primée au concours du plus beau bébé she won ou was awarded a prize in the beautiful baby contest2. (soutenu) [prédominer sur] to take precedence over————————[prime] verbe intransitif[avoir l'avantage] to be dominant -
17 Lace
LACE, Passement, French, also Dentelle, and GuipureLace was originally a heavy texture more like embroidery and of two kinds, Lacis or "darned netting" and Cutwork. Laces, often worked in gold threads and coloured silks was also called " spiderwork." Lace is purely an English word, derived from the Anglo-Norman lacier, to lace, bind, tie or fasten, etc. The word appears to have been first used in 1519. It is a fabric of open mesh or net formed by crossing and intertwining threads. Lace was originally purely a hand craft, but today it is machine made as well. There are three main classes: - Point lace, pillow lace and machine-made lace. Point Lace - When the term " Point " is applied to a lace fabric it should mean that the lace has been made by the needle with a single line of thread, but it is now given to many machine-made laces. There are numerous laces sold as point laces and each has some feature not possessed by any other, many of these laces are known by the town where they are manufactured. Pillow Lace - These laces are made by intertwining threads on pins fixed in a cushion over a pattern fastened on to the cushion. Many pillow laces are part hand and part machine made such as Honiton, Valenciennes, Irish, etc. Machine-made Laces - There are three principal classes which can be placed (1) warp fabrics; (2) plain nets; (3) Levers' laces. Warp Laces - This is the earliest form of lace produced on a machine which was the invention of the Rev. William Lee in 1589, and was an adaption of the stocking frame. A warp lace is a series of upright threads that twist upon each other to form a fabric. There are no crossing threads. They are made in widths up to 10-in. and are the cheapest laces made. Plain Nets - John Heathcote, the inventor of the bobbin-net machine in 1809, laid the foundation of the machine-made lace trade. These are formed by a diagonal bobbin thread intertwining with the upright warp threads so that when the web is taken off the machine the mesh is honeycomb shaped. Other shapes followed, such as the square mesh. Cotton, silk, mohair and rayon are all used in making plain nets. Standard plain nets are as follows: - Brussels Net - Close mesh, specially selected fine yarns, in widths 36-in. to 80-in. The mesh varies up to 20 holes per inch. Both stiff and soft finish. Mosquito Net - Made in many qualities and closeness of mesh and from 54-in. to 108-in. Cable Net - Made up to 300-in. wide and from coarser yarns than other laces. This fabric is used as the ground fabric for curtains, etc. Bretonne Net - A very fine fabric, close mesh and finer yarns than Brussels, very soft and smooth finish. Point d'esprit - Fabrics with spots at regular distances. The yarns are not as good a quality as Brussels. Finished both soft and stiff. Paris Nets - Very stiff finish, used by the millinery trade for foundation work. Illusion Nets - A star-shaped mesh fabric, very fine yarns, used for veils and evening dress purposes. Silk Mechlins, or Tulles - A net more round than square in mesh and made from fine silk yarns. Malines is a tulle made in Belgium. Chantilly, or Silk Brussels - Similar to Brussels, but made from black dyed silk yarns. Chambray Nets - A finer all silk net than Chantilly. Levers' Lace Fabrics - These are various fancy laces and are produced on the lace machine fitted with a jacquard. Samuel Draper of Nottingham combined the jacquard with the lace machine in 1813. John Levers invented the machine. Varieties of these laces are Cluny laces. Torchons, Maltese lace. All-overs and numerous others. -
18 attribute
[ə'trɪbju:t] (ascribe → accident, failure) attribuer, imputer; (→ invention, painting, quotation) prêter, attribuer; (→ success) attribuer;∎ to what do you attribute your success? à quoi attribuez-vous votre réussite?(b) (in logic) attribut m(c) Linguistics épithète m -
19 Gorton, Richard
SUBJECT AREA: Textiles[br]fl. 1790s England[br]English patentee of a power loom for weaving narrow fabrics.[br]In May 1791, Richard Gorton took out a patent for a new type of power-driven loom for narrow fabrics to "work one or several pieces at the same time, either by hand, lath, steam engine, or by water-machinery". The sley with the reed was worked by a crank, and the picker by a lever and cam. The shuttle-box had springs to retain the shuttle, and the warp was kept tight by weights. A stop, which was usually pushed out of the way by the shuttle entering the box, prevented the sley or lath "driving the shuttle against the piece" when the shuttle stuck in the middle. One particularly interesting feature was the sizing of the warp threads by means of brushes and a roller that turned in a square trough filled with size. This pre-dates Radcliffe's sizing machine, which is always considered the first, by a number of years. The mill in which these machines worked was at Cuckney, near Mansfield, England. In 1788 Thomas Gorton had installed one of the earliest Boulton \& Watt rotative steam engines there.[br]BibliographyMay 1791, British patent no. 1,804 (power loom for weaving narrow fabrics).Further ReadingR.L.Hills, 1970, Power in the Industrial Revolution, Manchester (provides an account of Gorton's patent).S.D.Chapman, 1967, The Early Factory Masters, Newton Abbot (makes a brief mention of this invention).RLH -
20 Junghans, Siegfried
SUBJECT AREA: Metallurgy[br]b. 1887d. 1954[br]German pioneer of the continuous casting of metals.[br]Junghans was of the family that owned Gebrüder Junghans, one of the largest firms in the German watch-and clockmaking industry. From 1906 to 1918 he served in the German Army, after which he took a course in metallurgy and analytical chemistry at the Technical High School in Stuttgart. Junghans was then given control of the brassworks owned by his family. He wanted to make castings simply and cheaply, but he found that he lacked the normal foundry equipment. By 1927, formulating his ideas on continuous casting, he had conceived a way of overcoming this deficiency and began experiments. By the time the firm was taken over by Wieland-Werke AG in 1931, Junghans had achieved positive results. A test plant was erected in 1932, and commercial production of continuously cast metal followed the year after. Wieland told Junghans that a brassfounder who had come up through the trade would never have hit on the idea: it took an outsider like Junghans to do it. He was made Technical Director of Wielands but left in 1935 to work privately on the development of continuous casting for all metals. He was able to license the process for non-ferrous metals during 1936–9 in Germany and other countries, but the Second World War interrupted his work; however, the German government supported him and a production plant was built. In 1948 he was able to resume work on the continuous casting of steel, which he had been considering since 1936. He pushed on in spite of financial difficulties and produced the first steel by this process at Schorndorf in March 1949. From 1950 he made agreements with four firms to work towards the pilot plant stage, and this was achieved in 1954 at Mannesmann's Huckingen works. The aim of continuous casting is to bypass the conventional processes of casting molten steel into ingots, reheating the ingots and shaping them by rolling them in a large mill. Essentially, in continuous casting, molten steel is drawn through the bottom of a ladle and down through a water-cooled copper mould. The unique feature of Junghans's process was the vertically reciprocating mould, which prevented the molten metal sticking as it passed through. A continuous length of steel is taken off and cooled until it is completely solidified into the required shape. The idea of continuous casting can be traced back to Bessemer, and although others tried to apply it later, they did not have any success. It was Junghans who, more than anybody, made the process a reality.[br]Further ReadingK.Sperth and A.Bungeroth, 1953, "The Junghans method of continuous casting of steel", Metal Treatment and Drop Forging, Mayn.J.Jewkes et al., 1969, The Sources of Invention, 2nd edn, London: Macmillan, pp. 287 ff.LRD
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