machine needles

Jacquard Machine

JACQUARD MACHINE

The jacquard machine is an essential addition to looms intended for weaving ornamental designs that are beyond the scope of stave -work. The machine is made in many forms and sizes for different branches of the weaving industry, but its characteristic feature is that it furnishes the means whereby every individual thread in a design may weave differently from all the others. This permits the delineation of all forms and shapes and the fineness of the detail is only limited by the texture, e.g., the number of ends and picks per inch. The action of the jacquard machine is communicated to the warp threads through a system of cords known variously as the harness mounting and jacquard harness. Actually, loom harness ante-dated the jacquard machine by many centuries, and many draw loom harnesses were much more complicated than modern jacquard harnesses. An essential feature of a jacquard is that each hook in the machine can be lifted at will independently of the others. The selection of which hooks shall lift and which shall be left down is made by the designer, by painting marks on squared paper to indicate the hooks that must be lifted on each pick. In cutting the pattern cards, a hole is cut for every mark or filled square on the design paper, and a blank is left for every empty square on the paper. Assuming that each pattern card represents one pick of weft, when the card is pressed against the needles of the jacquard, the blanks push the unwanted needles and hooks out of the path of the lifting griffe; the holes allow the needles to pass through and thus remain stationary, so that the corresponding hooks remain in the path of the lifting griffe and cause the corresponding warp threads to be lifted. Jacquard: Single-lift, single-cylinder - In this machine there is only one griffe which lifts on every pick, and only one pattern cylinder, which strikes every pick. This restricts the speed at which the loom can be operated. Jacquard: Double-lift, single-cylinder - This is the machine in most common use for ordinary jacquard work. There are two lifting griffes and twice as many hooks as in a single-lift machine, but only the same number of needles and one card cylinder. The shed formed is of the semi-open type, which causes less movement of the warp threads, as any threads which require to be up for two or more picks in succession are arrested in their fall and taken up again. Double-lift jacquards give a greatly increased loom production as compared with single-lift machines, as they permit the speed of the loom to be increased to about 180 picks per minute for narrow looms, as compared with 120 to 140 picks per minute for single-lift jacquards. Jacquard: Double-lift, double-cylinder - In this machine there are two sets of hooks and needles, two lifting griffes and two card cylinders, odd picks in one set of cards and even picks in the other set. This permits maximum loom speed, it prolongs the life of the pattern cards, but is open to the serious drawback that spoiled cloth is caused whenever the two card cylinders get out of correct rotation. Jacquard: Cross Border - Fabrics with borders, such as tablecloths, bed quilts, etc., are woven with jacquards with two griffes, two sets of hooks and two card cylinders. The cards for weaving the border are laced together and weave on one cylinder, while the centre cards are on the other cylinder. The loom weaves at the speed of a single-cylinder, single-lift machine, and the change from the border to the centre cards can be made by hand or automatically

иглы горизонтальной игольницы

Engineering: machine needles (двухфонтурной котонной машины)

В-351

ВСЯКАЯ ВСЯЧИНА coll NP sing only fixed WO

1. (obj or subj) the most diverse things, objects, phenomena

all sorts (kinds) of things (stuff)

(of material objects) sundries (all kinds of) odds and ends odd items (when introduced by Conj «и» at the end of an enumeration) and what have you.

Мужик и работники заткнули дыру всякой всячиной (Герцен 1). The peasant and the others plugged the hole with all sorts of things (1a).

«Что везешь к нам?» - спросил мой старик. «Ткани для женских платьев и мужских рубашек, — сказал Самуил, - галоши с загнутыми носками, какие обожают абхазцы, стёкла для ламп, иголки для швейных машин, нитки, пуговицы, чуму, холеру и другую всякую всячину» (Искандер 3). "What are you bringing us?" my old man asked. "Yard goods for women's dresses and men's shirts," Samuel said, "galoshes with turned-up toes of the kind Abkhazians adore, lamp chimneys, sewing-machine needles, thread, buttons, plague, cholera, and other sundries" (3a).

Хотел он ей (птице) тут же размозжить голову, но вспомнил, что рядом, в Гаграх, живёт принц Ольден-бургский и от скуки покупает всякую всячину (Искандер 3). Не wanted to smash its (the bird's) head then and there, but remembered that nearby in Gagra lived a Prince Oldenburgsky who bought odd items out of boredom (3a).

2. ( usu. prep obj

used with verbs of speaking) different things, topics, subjects (of conversation, discussion, reading, or contemplation)

anything and everything

everything under the sun all sorts (kinds) of things this and that.

Так, разговаривая о всякой всячине, они шли по дороге (Искандер 5). Thus they walked along the road, talking of anything and everything (5a).

Там мы жарили картошку на электрической плитке, прозванной «камином», распивали крепчайший чай и толковали о всякой всячине... (Копелев 1). There we fried potatoes on a hotplate, dubbed "the fireplace," drank the strongest tea, and talked about everything under the sun (1a).

Ему хотелось на постоялый двор, к... Козлевичу, с которым так приятно попить чаю и покалякать о всякой всячине (Ильф и Петров 2). Не was longing to get back to the tavern, to...Kozlevich, with whom it was so nice to drink tea and chat about this and that (2a).

всякая всячина

• ВСЯКАЯ ВСЯЧИНА coll

[NP; sing only; fixed WO]

=====

1. [obj or subj]

⇒ the most diverse things, objects, phenomena:

- all sorts (kinds) of things (stuff);

- [of material objects] sundries;

- (all kinds of) odds and ends;

- odd items;

- [when introduced by Conj "и" at the end of an enumeration] and what have you.

     ♦ Мужик и работники заткнули дыру всякой всячиной (Герцен 1). The peasant and the others plugged the hole with all sorts of things (1a).

     ♦ "Что везешь к нам?" - спросил мой старик. "Ткани для женских платьев и мужских рубашек, - сказал Самуил, - галоши с загнутыми носками, какие обожают абхазцы, стёкла для ламп, иголки для швейных машин, нитки, пуговицы, чуму, холеру и другую всякую всячину" (Искандер 3). "What are you bringing us?" my old man asked. "Yard goods for womens dresses and men's shirts," Samuel said, "galoshes with turned-up toes of the kind Abkhazians adore, lamp chimneys, sewing-machine needles, thread, buttons, plague, cholera, and other sundries" (3a).

     ♦ Хотел он ей [птице] тут же размозжить голову, но вспомнил, что рядом, в Гаграх, живёт принц Ольденбургский и от скуки покупает всякую всячину (Искандер 3). He wanted to smash its [the bird's] head then and there, but remembered that nearby in Gagra lived a Prince Oldenburgsky who bought odd items out of boredom (3a).

2. [usu. prep obj; used with verbs of speaking]

⇒ different things, topics, subjects (of conversation, discussion, reading, or contemplation):

- anything and everything;

- everything under the sun;

- all sorts (kinds) of things;

- this and that.

     ♦ Так, разговаривая о всякой всячине, они шли по дороге (Искандер 5). Thus they walked along the road, talking of anything and everything (5a).

     ♦ Там мы жарили картошку на электрической плитке, прозванной "камином", распивали крепчайший чай и толковали о всякой всячине... (Копелев 1). There we fried potatoes on a hotplate, dubbed "the fireplace," drank the strongest tea, and talked about everything under the sun (1a).

     ♦ Ему хотелось на постоялый двор, к... Козлевичу, с которым так приятно попить чаю и покалякать о всякой всячине (Ильф и Петров 2). He was longing to get back to the tavern, to...Kozlevich, with whom it was so nice to drink tea and chat about this and that (2a).

иглы горизонтальной игольницы

( двухфонтурной котонной машины) machine needles

Townsend, Matthew

SUBJECT AREA: Textiles

[br]

b. Leicester (?), England

d. after 1867 USA

[br]

English inventor of the latch needle for making seamless hose, and developer of ribbed knitting on circular machines.

[br]

Townsend, who described himself in his first patent as a framework knitter and afterwards as a hosier of Leicester, took out a patent in 1847 for the application of a "machine like that of a point net frame to an ordinary stocking-frame". He described needles and hooks of a peculiar shape which were able to take the work off the knitting machine, reverse the loops and return them again so that ribbed knitting could be made on circular machines. These became popular for knitting stockings which, although not fully fashioned, had sufficient strength to fit the leg. In 1854 he took out a patent for making round hose with heels and toes fashioned on other machines. In yet another patent, in 1856, he described a method of raising looped pile on knitted fabrics for making "terry" towelling fabrics. He could use different coloured yarns in the fabric that were controlled by a Jacquard mechanism. It was in the same year, 1856, in a further patent that he described his tumbler or latch needles as well as the making of figured patterns in knitting on both sides of the fabric with a Jacquard mechanism. The latch needles were self-acting, being made to move up and down or backwards and forwards by the action of cams set in the cylindrical body of the machine. Normally the needle worked in a vertical or inclined position with the previous loop on the shank below the latch. Weft yarn was placed in the hook of the needle. The needle was drawn down between fixed plates which formed a new loop with the weft. At the same time, the original loop already on the shank of the needle moved along the shank and closed the latch so that it could pass over the newly formed loop in the needle hook and fall over the end of the needle incorporating the new loop on its way to make the next row of stitches. The latch needle obviated the need for loop wheels and pressers and thus simplified the knitting mechanism. Townsend's invention was the forerunner of an entirely new generation of knitting machines, but it was many years before its full potential was realized, the bearded needle of William Lee being preferred because the hinge of the latch could not be made as fine as the bearded needle.

Townsend was in the first rank of skilful manufacturers of fancy Leicester hosiery and had a good practical knowledge of the machinery used in his trade. Having patented his needles, he seems not to have succeeded in getting them into very profitable or extensive use, possibly because he fixed the royalty too high. His invention proved to be most useful and profitable in the hands of others, for it gave great impetus to the trade in seamless hose. For various reasons he discontinued his business in Leicester. He emigrated to the USA, where, after some initial setbacks, he began to reap the rewards of his skill.

[br]

Bibliography

1847, British patent no. 11,899 (knitting machine). 1854, British patent no. 1,523 (seamless hose).

1856, British patent no. 1,157 ("terry" towelling fabrics).

1856, British patent no. 1,858 (latch needles and double-sided patterns on fabrics).

Further Reading

F.A.Wells, 1935, The British Hosiery and Knitwear Industry, London (mentions Townsend briefly).

W.Felkin, 1967, History of the Machine-wrought Hosiery and Lace Manufactures, reprint, Newton Abbot (orig. pub. 1867) (a better account of Townsend).

RLH

tricoter

tricoter [tʀikɔte]

➭ TABLE 1

1. transitive verb

to knit

• écharpe tricotée (à la) main hand-knitted scarf

2. intransitive verb

to knit

• tricoter à la machine to machine-knit

* * *

tʀikɔte
1.

verbe transitif to knit

tricoter une écharpe à quelqu'un — to knit somebody a scarf, to knit a scarf for somebody

un pull tricoté (à la) main — a handknit sweater

robe tricotée — sweater dress, knitted dress

2.

verbe intransitif to knit

tricoter à la main — to hand-knit

tricoter à la machine — to knit on a knitting machine

aiguilles/machine à tricoter — knitting needles/machine

* * *

tʀikɔte vt

to knit

aiguille à tricoter — knitting needle Grande-Bretagne knitting pin USA

* * *

tricoter verb table: aimer

A vtr to knit [chandail, chaussettes]; tricoter une écharpe à qn to knit sb a scarf, to knit a scarf for sb; tricoter de la laine to knit with wool; tricoter une maille/un rang to knit a stitch/a row; tricoter serré/lâche to knit tightly/loosely; un pull tricoté (à la) main a handknit sweater; robe tricotée sweater dress, knitted dress.

B vi to knit; tricoter à la main/machine to knit by hand/machine; aiguilles/machine à tricoter knitting needles/machine.

Idiome

tricoter des jambes ou des pinceaux○ hum to storm along.

[trikɔte] verbe transitif

[laine, maille] to knit

[vêtement] to knit (up)

tricotez une maille à l'endroit, une maille à l'envers knit one, purl one

————————

[trikɔte] verbe intransitif

1. TEXTILES to knit

tricoter à la machine to machine-knit

2. (familier) [s'activer - coureur] to scramble ; [ - danseur, cheval] to prance ; [ - cycliste] to peddle hard

————————

à tricoter locution adjectivale

[aiguille, laine, machine] knitting

Verdol Jacquard

VERDOL JACQUARD

A fine-pitch machine invented by M. Verdol in 1884. It has 16 hooks per row and two rows of 8 holes each on the card correspond with one row of 16 hooks. The rows of holes in the card are staggered to make maximum use of the space. The machines are made in multiples of 112, common sizes being 448, 896, 1344 and 1792 hooks. Instead of pattern cards, an endless band of perforated paper is used to actuate the needles and pattern selecting mechanism. About 15 yards of paper will equal about 1,000 cards, as the Verdol machine presents 80 needles to the square inch as compared with 14 needles for the ordinary British pitch machine.

Lee, Revd William

SUBJECT AREA: Textiles

[br]

d. c. 1615

[br]

English inventor of the first knitting machine, called the stocking frame.

[br]

It would seem that most of the stories about Lee's invention of the stocking frame cannot be verified by any contemporary evidence, and the first written accounts do not appear until the second half of the seventeenth century. The claim that he was Master of Arts from St John's College, Cambridge, was first made in 1607 but cannot be checked because the records have not survived. The date for the invention of the knitting machine as being 1589 was made at the same time, but again there is no supporting evidence. There is no evidence that Lee was Vicar of Calverton, nor that he was in Holy Orders at all. Likewise there is no evidence for the existence of the woman, whether she was girlfriend, fiancée or wife, who is said to have inspired the invention, and claims regarding the involvement of Queen Elizabeth I and her refusal to grant a patent because the stockings were wool and not silk are also without contemporary foundation. Yet the first known reference shows that Lee was the inventor of the knitting machine, for the partnership agreement between him and George Brooke dated 6 June 1600 states that "William Lee hath invented a very speedy manner of making works usually wrought by knitting needles as stockings, waistcoats and such like". This agreement was to last for twenty-two years, but terminated prematurely when Brooke was executed for high treason in 1603. Lee continued to try and exploit his invention, for in 1605 he described himself as "Master of Arts" when he petitioned the Court of Aldermen of the City of London as the first inventor of an engine to make silk stockings. In 1609 the Weavers' Company of London recorded Lee as "a weaver of silk stockings by engine". These petitions suggest that he was having difficulty in establishing his invention, which may be why in 1612 there is a record of him in Rouen, France, where he hoped to have better fortune. If he had been invited there by Henry IV, his hopes were dashed by the assassination of the king soon afterwards. He was to supply four knitting machines, and there is further evidence that he was in France in 1615, but it is thought that he died in that country soon afterwards.

The machine Lee invented was probably the most complex of its day, partly because the need to use silk meant that the needles were very fine. Henson (1970) in 1831 took five pages in his book to describe knitting on a stocking frame which had over 2,066 pieces. To knit a row of stitches took eleven separate stages, and great care and watchfulness were required to ensure that all the loops were equal and regular. This shows how complex the machines were and points to Lee's great achievement in actually making one. The basic principles of its operation remained unaltered throughout its extraordinarily long life, and a few still remained in use commercially in the early 1990s.

[br]

Further Reading

J.T.Millington and S.D.Chapman (eds), 1989, Four Centuries of Machine Knitting, Commemorating William Lee's Invention of the Stocking Frame in 1589, Leicester (N.Harte examines the surviving evidence for the life of William Lee and this must be considered as the most up-to-date biographical information).

Dictionary of National Biography (this contains only the old stories).

Earlier important books covering Lee's life and invention are G.Henson, 1970, History of the Framework Knitters, reprint, Newton Abbot (orig. pub. 1831); and W.Felkin, 1967, History of the Machine-wrought Hosiery and Lace Manufactures, reprint, Newton Abbot (orig. pub. 1867).

M.Palmer, 1984, Framework Knitting, Aylesbury (a simple account of the mechanism of the stocking frame).

R.L.Hills, "William Lee and his knitting machine", Journal of the Textile Institute 80(2) (a more detailed account).

M.Grass and A.Grass, 1967, Stockings for a Queen. The Life of William Lee, the Elizabethan Inventor, London.

RLH

cosedora

adj.&f.

feminine of COSEDOR.

f.

1 seamstress, stitcher.

2 sewing machine, stitching machine.

* * *

= stitching press, stabbing machine, sewing machine.

Ex. Years ago, many libraries had their own binderies equipped with simple stitching presses, guillotines, etc.

Ex. Hand-operated stabbing machines, which forced three stabbing needles simultaneously through the side of a pamphlet, ready for subsequent sewing by hand, appeared early in the century.

Ex. In 1895 a good London bindery would have the following machines: hand-fed folding machines, sewing machines, nipping machines (for pressing the sewn books before casing-in), cutting machines, rounding machines, backing machines, straight-knife trimming machines (guillotines), rotary board-cutting machines, power blocking presses, and hydraulic standing presses.

* * *

= stitching press, stabbing machine, sewing machine.

Ex: Years ago, many libraries had their own binderies equipped with simple stitching presses, guillotines, etc.

Ex: Hand-operated stabbing machines, which forced three stabbing needles simultaneously through the side of a pamphlet, ready for subsequent sewing by hand, appeared early in the century.

Ex: In 1895 a good London bindery would have the following machines: hand-fed folding machines, sewing machines, nipping machines (for pressing the sewn books before casing-in), cutting machines, rounding machines, backing machines, straight-knife trimming machines (guillotines), rotary board-cutting machines, power blocking presses, and hydraulic standing presses.

* * *

cosedora nf

Col [grapadora] stapler

* * *

cosedor

m, cosedora f machinist

Jacquard, Joseph-Marie

SUBJECT AREA: Textiles

[br]

b. 7 July 1752 Lyons, France

d. 7 August 1834 Oullines, France

[br]

French developer of the apparatus named after him and used for selecting complicated patterns in weaving.

[br]

Jacquard was apprenticed at the age of 12 to bookbinding, and later to type-founding and cutlery. His parents, who had some connection with weaving, left him a small property upon their death. He made some experiments with pattern weaving, but lost all his inheritance; after marrying, he returned to type-founding and cutlery. In 1790 he formed the idea for his machine, but it was forgotten amidst the excitement of the French Revolution, in which he fought for the Revolutionists at the defence of Lyons. The machine he completed in 1801 combined earlier inventions and was for weaving net. He was sent to Paris to demonstrate it at the National Exposition and received a bronze medal. In 1804 Napoleon granted him a patent, a pension of 1,500 francs and a premium on each machine sold. This enabled him to study and work at the Conservatoire des Arts et Métiers to perfect his mechanism for pattern weaving. A method of selecting any combination of leashes at each shoot of the weft had to be developed, and Jacquard's mechanism was the outcome of various previous inventions. By taking the cards invented by Falcon in 1728 that were punched with holes like the paper of Bouchon in 1725, to select the needles for each pick, and by placing the apparatus above the loom where Vaucanson had put his mechanism, Jacquard combined the best features of earlier inventions. He was not entirely successful because his invention failed in the way it pressed the card against the needles; later modifications by Breton in 1815 and Skola in 1819 were needed before it functioned reliably. However, the advantage of Jacquard's machine was that each pick could be selected much more quickly than on the earlier draw looms, which meant that John Kay's flying shuttle could be introduced on fine pattern looms because the weaver no longer had to wait for the drawboy to sort out the leashes for the next pick. Robert Kay's drop box could also be used with different coloured wefts. The drawboy could be dispensed with because the foot-pedal operating the Jacquard mechanism could be worked by the weaver. Patterns could be changed quickly by replacing one set of cards with another, but the scope of the pattern was more limited than with the draw loom. Some machines that were brought into use aroused bitter hostility. Jacquard suffered physical violence, barely escaping with his life, and his machines were burnt by weavers at Lyons. However, by 1812 his mechanism began to be generally accepted and had been applied to 11,000 draw-looms in France. In 1819 Jacquard received a gold medal and a Cross of Honour for his invention. His machines reached England c.1816 and still remain the basic way of weaving complicated patterns.

[br]

Principal Honours and Distinctions

French Cross of Honour 1819. National Exposition Bronze Medal 1801.

Further Reading

A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London.

C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press.

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (covers the introduction of pattern weaving and the power loom).

RLH

Spritzenautomat

m machine providing sterile needles for drug addicts

* * *

Spritzenautomat m machine providing sterile needles for drug addicts

Welt, Automatic

WELT, AUTOMATIC

This is done on the automatic hose machine by holding alternate stitches on points until the welt piece has been completed, the held stitches being thereafter transferred to their original needles to enable the hose to be continued. By this sytem no sewing or stitching is required, and the join is smooth and continuous -with the parent fabric. In the fully-fashioned article all the original stitches are held until the welt length has been knitted when the stitches are moved back once more to the original needles thus giving a two-ply piece of fabric which is. perfectly smooth and continuous with the ground fabric on the inside. On recently constructed full-fashioned hose machines, welting is now done automatically, by a set of points which automatically bear down on the needles to re-transfer the original stitches.

Cotton, William

SUBJECT AREA: Textiles

[br]

b. 1819 Seagrave, Leicestershire, England

d. after 1878

[br]

English inventor of a power-driven flat-bed knitting machine.

[br]

Cotton was originally employed in Loughborough and became one of the first specialized hosiery-machine builders. After the introduction of the latch needle by Matthew Townsend in 1856, knitting frames developed rapidly. The circular frame was easier to work automatically, but attempts to apply power to the flat frame, which could produce fully fashioned work, culminated in 1863 with William Cotton's machine. In that year he invented a machine that could make a dozen or more stockings or hose simultaneously and knit fashioned garments of all kinds. The difficulty was to reduce automatically the number of stitches in the courses where the hose or garment narrowed to give it shape. Cotton had early opportunities to apply himself to the improvement of hosiery machines while employed in the patent shop of Cartwright \& Warner of Loughborough, where some of the first rotaries were made. He remained with the firm for twenty years, during which time sixty or seventy of these machines were turned out. Cotton then established a factory for the manufacture of warp fabrics, and it was here that he began to work on his ideas. He had no knowledge of the principles of engineering or drawing, so his method of making sketches and then getting his ideas roughed out involved much useless labour. After twelve years, in 1863, a patent was issued for the machine that became the basis of the Cotton's Patent type. This was a flat frame driven by rotary mechanism and remarkable for its adaptability. At first he built his machine upright, like a cottage piano, but after much thought and experimentation he conceived the idea of turning the upper part down flat so that the needles were in a vertical position instead of being horizontal, and the work was carried off horizontally instead of vertically. His first machine produced four identical pieces simultaneously, but this number was soon increased. Cotton was induced by the success of his invention to begin machine building as a separate business and thus established one of the first of a class of engineering firms that sprung up as an adjunct to the new hosiery manufacture. He employed only a dozen men and turned out six machines in the first year, entering into an agreement with Hine \& Mundella for their exclusive use. This was later extended to the firm of I. \& R.Morley. In 1878, Cotton began to build on his own account, and the business steadily increased until it employed some 200 workers and had an output of 100 machines a year.

[br]

Bibliography

1863, British patent no. 1,901 (flat-frame knitting machine).

Further Reading

F.A.Wells, 1935, The British Hosiery and Knitwear Industry: Its History and Organisation, London (based on an article in the Knitters' Circular (Feb. 1898).

A brief account of the background to Cotton's invention can be found in T.K.Derry and T.I. Williams, 1960, A Short History of Technology from the Earliest Times to AD 1900, Oxford; C. Singer (ed.), 1958, A History of Technology, Vol. V, Oxford: Clarendon Press.

F.Moy Thomas, 1900, I. \& R.Morley. A Record of a Hundred Years, London (mentions cotton's first machines).

RLH

Skola

SUBJECT AREA: Textiles

[br]

fl. c. 1819 France

[br]

French improver of the Jacquard mechanism for pattern weaving.

[br]

Jacquard hand looms surviving from the 1830s show a mechanism similar to those still used in the 1990s, with all the operations being carried out by the weaver: the flying shuttle, invented by John Kay, is driven across with the right hand, while the left hand rests on the sley and beats in the weft and also selects the appropriate shuttle from Robert Kay's drop box. The right foot presses down on a pedal which operates the Jacquard mechanism. The single downwards movement of the foot has to be translated into two different motions to operate the Jacquard. First, the correct card has to be moved horizontally against the needles to select the desired pattern, then the appropriate needles have to be lifted vertically. Jacquard's invention failed in the way it pressed the card against the needles, but Skola was able to improve this in 1819, probably with the addition of a part called the "swan neck". It was Skola's Jacquard machine which truly rendered the process of weaving more economical and productive because the weaver now could operate the Jacquard mechanism with no help, so dispensing with the drawboy. The speed of selecting the pattern with this mechanism also meant that the weaver could use the flying shuttle, with an additional increment in weaving speeds.

[br]

Further Reading

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (includes a description of the development of the Jacquard mechanism).

A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London (for illustrations of the perfected mechanism).

RLH

Dawson, William

SUBJECT AREA: Textiles

[br]

b. mid-eighteenth century

d. c.1805 London, England

[br]

English inventor of the notched wheel for making patterns on early warp knitting machines.

[br]

William Dawson, a Leicester framework knitter, made an important addition to William Lee's knitting machine with his invention of the notched wheel in 1791. Lee's machine could make only plain knitting; to be able to knit patterns, there had to be some means of mechanically selecting and operating, independently of all the others, any individual thread, needle, lever or bar at work in the machine. This was partly achieved when Dawson devised a wheel that was irregularly notched on its edge and which, when rotated, pushed sprung bars, which in turn operated on the needles or other parts of the recently invented warp knitting machines. He seems to have first applied the idea for the knitting of military sashes, but then found it could be adapted to plait stay laces with great rapidity. With the financial assistance of two Leicester manufacturers and with his own good mechanical ability, Dawson found a way of cutting his wheels. However, the two financiers withdrew their support because he did not finish the design on time, although he was able to find a friend in a Nottingham architect, Mr Gregory, who helped him to obtain the patent. A number of his machines were set up in Nottingham but, like many other geniuses, he squandered his money away. When the patent expired, he asked Lord Chancellor Eldon to have it renewed: he moved his workshop to London, where Eldon inspected his machine, but the patent was not extended and in consequence Dawson committed suicide.

[br]

Bibliography

1791, British patent no. 1,820 (notched wheel for knitting machine).

Further Reading

W.Felkin, 1867, History of Machine-Wrought Hosiery and Lace Manufacture (covers Dawson's invention).

W.English, 1969, The Textile Industry, London (provides an outline history of the development of knitting machines).

RLH

Deverill, Hooton

SUBJECT AREA: Textiles

[br]

fl. c.1835 England

[br]

English patentee of the first successful adaptation of the Jacquard machine for patterned lacemaking.

[br]

After John Levers had brought out his lacemaking machine in 1813, other lacemakers proceeded to elaborate their machinery so as to imitate the more complicated forms of handwork. One of these was Samuel Draper of Nottingham, who took out one patent in 1835 for the use of a Jacquard mechanism on a lace making machine, followed by another in 1837. However, material made on his machine cost more than the handmade article, so the experiment was abandoned after three years. Then, in Nottingham in 1841, Hooton Deverill patented the first truly successful application of the Jacquard to lacemaking. The Jacquard needles caused the warp threads to be pushed sideways to form the holes in the lace while the bobbins were moved around them to bind them together. This made it possible to reproduce most of the traditional patterns of handmade lace in both narrow and wide pieces. Lace made on these machines became cheap enough for most people to be able to hang it in their windows as curtains, or to use it for trimming clothing. However, it raised in a most serious form the problem of patent rights between the two patentees, Deverill and Draper, threatening much litigation. Deverill's patent was bought by Richard Birkin, who with his partner Biddle relinquished the patent rights. The lacemaking trade on these machines was thus thrown open to the public and a new development of the trade took place. Levers lace is still made in the way described here.

[br]

Bibliography

1841, British patent no. 8,955 (adaptation of Jacquard machine for patterned lacemaking).

Further Reading

W.Felkin, 1867, History of Machine-Wrought Hosiery and Lace Manufacture (provides an account of Deverill's patent).

C.Singer (ed.), 1958, A History of'Technology, Vol. V, Oxford: Clarendon Press (a modern account).

T.K.Derry and T.I.Williams, 1960, A Short History of Technology from the Earliest

Times to AD 1900, Oxford.

RLH

Card Cutting

CARD CUTTING

To punch the holes in jacquard cards, according to specified designs, and in the order they are to operate the needles. There are two types of machines used, the plate and the piano. Plate Machine - The operation on this machine is slow, the plate being usually reset for every distinct pick in the design; but if there are many similar picks in the design it is obviously the quicker, as one setting of the plate will enable all similar picks to be cut in a few moments. Piano Machine - This machine feeds the card into the line of 8, 10, or 12 cutting punches controlled by the fingers, so that the fingers indicate the correct punches; one foot cuts and the other foot (or treadle) controls the movement forward of the card. A good cutter will cut from 100 up to 120 cards per hour (300's cards). The sketch shows this machine

однофонтурная кругловязальная машина

1) Engineering: sinker-top machine, wrapper

2) Textile: circular knitting machine with one set of needles, plain circular knitting machine

3) Makarov: circular knitting machine with one set of needle

Warping

WARPING

General term for processes after winding concerned in preparing weaver's and knitter's warps. Methods of warping vary according to (1) the yarns employed (2) whether they are sized or not, and (3) at what state sizing takes place. There are at least seven methods of warp preparation, e.g., beam warping, direct warping, mill warping on vertical mills, section warping on horizontal mills and in cheeses on section blocks, Scotch dresser sizing, Scotch warp dressing, and Yorkshire warp dressing. Beam Warping is the system in general use for making grey cotton goods. The beam warper comprises a creel for the supply ends, which may be on double-flanged bobbins, cones or cheeses, and a beaming head which comprises mechanism for mounting and rotating a warper's beam and means for winding the yarn from the creel supply on to the beam under suitable tension. The number of ends and length of warp on a back or warper's beam is related to what is required in the weaver's beam. Assuming the weaver's beams were required to have 2928 ends, 24's warp, and 8 cuts of 96 yards each, the back beams for a set might have 2928: 6 = 488 ends, and 2 X 6 X 8 X 96 = 9216 yards. On the slasher sizing machine six back beams would be run together, thereby producing 12 weaver's beams each containing 2928 ends 768 yards long. Warp Beaming Speeds - With the old type of warp beaming machine taking supply from unrolling double-flanged bobbins, the warping speed would be about 70 yards per minute. In modern beam warpers taking supply overend from cones, the warping speed is up to 250 yards per minute. With beam barrels of 4¹/₂-in. dia., and up to 500 yards per minute with barrels of 10-in. dia. Warp and Weft Knitted Fabrics - Warp knitted fabrics in which extra yarn is introduced in the form of weft threads which are laid in between the warp threads and their needles for the purpose of adding extra weight and for patterning purposes. Warp Loom Tapes - Narrow knitted fabrics usually less than one inch wide used for trimming garments. They are knitted on circular latch needle machines, but the tapes are flat. Direct Warping - A method used in making warps for towels, fustians, and other fabrics in which the total number of ends can be accommodated in one creel, say not more than 1,000 ends. The threads are run from the creel direct to the weaver's beam on a machine similar to that used in section beam warping. Mill Warping - There are two distinctly different methods of mill warping. On the vertical mill, which may be anything up to 20 yards in circumference, the number of ends in the complete warp is obtained by repeating the runs the required number of times, e.g., with 200 bobbins in the creel, 4 runs would give a warp of 800 ends. The length of the warp is determined by the number of revolutions made by the mill for each run. The horizontal mill is much used in Yorkshire for making woollen and worsted warps It is used to a small extent for cotton warps and is largely used for making silk and rayon warps. The mill or swift is usually about 5 yards in circumference. Its distinctive feature is the making of warps in sections which are wound on the mill in overlapping manner. The creel capacity varies from 250 to 600 ends, and with 500 ends in the creel a warp of 5,000 ends would require ten sections. Section Warping for Coloured Goods - This is a system of making coloured striped warps from hank-dyed and bleached yarns. The bobbins are creeled to pattern, one or more complete patterns to each section. Each section is the full length of the warp and is run on a small section block keywayed to fit a key on the shaft of the subsequent beaming machine where the sections are placed side by side and run on the weaver's beam. Scotch Dresser Sizing - There are two systems of warp preparation known as Scotch dressing. 1. Dresser sizing used for sizing warps for linen damasks, etc. Back beams are first made and placed in two beam creels, one on each side of the headstock. The threads from several back beams are collected in one sheet of yarn, sized by passage through a size-box, brushed by a revolving brush, dried by hot air, and passed vertically upwards where both sheets of warp threads are united and pass on to the weaver's beam in a single sheet. Scotch Warp Dressing - The other method of Scotch dressing is used in the preparation of coloured striped warps, usually from warp-dyed and bleached yarn. It consists in splitting off from ball warps previously dyed or bleached and sized, the number of ends of each colour required in the finished warp. Each group is then wound on separate flanged warpers' beams. These beams are placed in a creel and the ends drawn through a reed according to pattern, and wound finally on to the weavers' beams. Yorkshire Warp Dressing - This is a system used mostly in the preparation of coloured striped warps. It is also invaluable in preparing warps dyed and sized in warp form to prevent shadiness in the cloth. Four warps with the same number of ends in each are dyed the same colour, and in sleying, one end from each warp is put in each dent of the reed. Any tendency to shadiness arising from irregularity in dyeing is thereby effectively eliminated. In striped work the required ends are split off if necessary from a larger ball warp, sleyed to pattern in the reed, and then run under controlled tension on to the weaver's beam. The dresser uses a brush as long as the width of the warp to brush out entangled places where the threads have adhered together with size. Yorkshire dressing provides perfect warps with every thread in its proper place on the weaver's beam, no crossed or missing threads, and a minimum of knots.