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Spinning mule
History
Before the 1770s, textile production was a cottage industry using flax and wool. In a typical house, the girls and women could make enough yarn for the man's loom. But demand overtook supply due to:
pressure to compete with cotton calicos from India.
the invention by John Kay of the flying shuttle (which made the loom twice as productive).
Two systems were developed from the spinning wheel: the Simple Wheel, which uses an intermittent process and the more refined Saxony wheel which drives a differential spindle and flyer with heck, in a continuous process. Development was sponsored by businessmen such as Arkwright who employed inventors, then took out the relevant patents.
The increased supply of yarn inspired developments in loom design such as Rev. Cartwright's power loom. Some spinners and handloom weavers opposed the perceived threat to their livelihood: there were frame-breaking riots and, in 1811-3, the Luddism riots. The preparatory and associated tasks allowed many children to be employed until this was regulated.
The hand operated mule was a breakthrough in yarn production and the machines were copied by Samuel Slater who founded the cotton industry in Rhode Island. Development over the next century and a half led to an automatic mule and to finer and stronger yarn. The ring frame, originating in New England in the 1820s was little used in Lancashire until the 1890s. It used more energy and could not produce the finest counts.
The first mule
An early spinning mule: showing the gearing in the headstock
In 1779 Samuel Crompton invented the spinning mule or mule jenny, so called because it is a hybrid of Arkwright's water frame and Hargreaves' spinning jenny. The mule has a fixed frame with a creel of bobbins to hold the roving, connected through the headstock to a parallel carriage with the spindles. On the outward motion, the rovings are paid out and twisted. On the return, the roving is clamped and the spindles reversed to take up the newly spun thread.
Crompton built his mule from wood. Although he used Hargreaves' ideas of spinning multiple threads and of attenuating the roving with rollers, it was he who put the spindles on the carriage and fixed a creel of roving bobbins on the frame. Both the rollers and the outward motion of the carriage remove irregularities from the rove before it is wound on the spindle. When Arkwright's patents expired, the mule was developed by several manufacturers.
The mule produced strong, thin yarn, suitable for any kind of textile. It was first used to spin cotton, then other fibres.
Samuel Crompton could not afford to patent his invention. He sold the rights to David Dale and returned to weaving. Dale patented the mule and profited from it.
Improvements
Stone-metal rollers
Baker - drums }
James Hargreaves of Tottington - parallel scroll
1790
Kelly of Glasgow - a method of using power to assist the draw stroke . First animals and then water.
Wright of Manchester - moved the head stock to the centre of the machine allowing twice as many spindles, a squaring band was added to ensure the spindles came out in a straight line
1793
Kennedy addressed the problem of finer counts. With these the spindles on the return traverse needed to rotate faster than on the outward traverse. He attached gears and a clutch to implement this motion.
1818
William Eaton - improve the winding of the thread by using two faller wires and performing a backing off at the end of the outward traverse.
Roberts' self-acting mule
An Roberts self-acting spinning mule:1835 diagram showing the gearing in the headstock
Richard Roberts took out his first patent in 1825, and a second in 1830. The task he had set himself was to design a selfactor, a self-acting or automatic spinning mule. Roberts is also known for the Roberts Loom, which was widely adopted because of its reliability. The mule in 1820 still needed manual assistance to spin a consistent thread, a self acting mule needed:
A reversing mechanism that would unwind a spiral of yarn on the top of each spindle, before commencing the winding of a new stretch
A faller wire that would ensure the yarn was wound into a predefined form such as a cop
An appliance to vary the speed of revolution of the spindle, in accordance with the diameter of thread on that spindle
A counter faller under the thread was made to rise to take in the slack caused by backing off. This could be used with the top faller wire to guide the yarn to the correct place on the cop. These were controlled by levers and cams and an inclined plane called the shaper. The spindle speed was controlled by a drum and weighted ropes, as the headstock moved the ropes twisted the drum, which using a tooth wheel turned the spindles. None of this would have been possible using the technology of Crompton's time, fifty years earlier.
A cross section
The outward traverse
The inward traverse
Notice the faller wire gear
Operation of a mule
Taylor Lang selfactor mule headstock
Mule spindles rest on a carriage that travels on a track a distance of 60 inches (1.5 m), while drawing out and spinning the yarn. On the return trip, known as putting up, as the carriage moves back to its original position, the newly spun yarn is wound onto the spindle, in the form of a cone-shaped cop. As the mule spindle travels on its carriage, the roving which it spins is fed to it through rollers geared to revolve at different speeds to draw out the yarn.
Marsden in 1885 describes the processes of setting up and operating a mule. Here is his description, edited slightly.
The creel holds bobbins containing rovings. The rovings are passed through small guide-wires, and between the three pairs of drawing-rollers.
The first pair takes hold of the roving is simply to draw the roving or sliver from the bobbin, and deliver it to the next pair.
The motion of the middle pair is slightly quicker than the first, but only sufficiently so to keep the roving
uniformly tense
The front pair, running much more quickly, draw out (attenuate) the roving so it is equal throughout.
Connection is then established between the attenuated rovings and the spindles. When the latter are bare, as in a new mule, the spindle-driving motion is put into gear, and the attendants wind upon each spindle a short length of yarn from a cop held in the hand. The drawing-roller motion is placed in gear, and the rollers soon present lengths of attenuated roving. These are attached to the threads on the spindles, by simply placing the threads in contact with the un-twisted roving. The different parts of the machine are next simultaneously started, when the whole works in harmony together.
The back rollers pull the sliver from the bobbins, and passing it to the succeeding pairs, whose differential speeds attenuate it to the required degree of fineness. As it is delivered in front, the spindles, revolving at a rate of 6,000-9,000 rpm twist the hitherto loose fibres together, thus forming a thread.
Whilst this is going on, the spindle carriage is being drawn away from the rollers, at a pace very slightly exceeding the rate at which the roving is coming forth. This is called the gain of the carriage, its purpose being to eliminate all irregularities in the fineness of the thread. Should a thick place in the roving come through the rollers, it would resist the efforts of the spindle to twist it; and, if passed in this condition, it would seriously deteriorate the quality of the yarn, and impede subsequent operations. As, however, the twist, spreading itself over the level thread, gives firmness to this portion, the thick and untwisted part yields to the draught of the spindle, and, as it approaches the tenuity of the remainder, it receives the twist it had hitherto refused to take. The carriage, which is borne upon wheels, continues its outward progress, until it reaches the ex- tremity of its traverse, which is 63 inches (160 cm) from the roller beam. The revolution of the spindles cease, the drawing rollers stop.
Backing-off commences. This process is the unwinding of the several turns of the yarn, extending from the top of the cop in process of formation to the summit of the spindle. As this proceeds, the faller- wire, which is placed over and guides the threads upon the cop, is depressed ; the counter-faller at the same time rising, the slack unwound from the spindles is taken up, and the threads are prevented from running into snarls. Backing-off is completed.
The carriage commences to run inwards; that is, towards the rollerbeam. This is called putting up. The spindles wind on the yarn at a uniform rate. The speed of revolution of the spindle must vary, as the faller is guiding the thread upon the larger or smaller diameter of the cone of the cop. Immediately the winding is finished, the depressed faller rises, the counter-faller is put down.
These movements are repeated until the cops on each spindle are perfectly formed: the ' set is completed.A stop-motion paralyzes every action of the machine, rendering it necessary to doff or strip the spindles, and to commence anew.
Doffing is performed by the attendants raising the cops partially up the spindles, whilst the carriage is out; then depressing the faller, so far as to guide the threads upon the bare spindle below. A few turns are wound on, to fix the threads to the spindles for a new set, and then the cops are removed, being collected into cans or baskets, and subsequently delivered to the warehouse. The remainder of the "draw" or "stretch," as the length of spun yarn is called when the carriage is out, is then wound upon the spindles by the carriage being run up to the roller beam. Work then commences anew.
Key components
A Mule Jenny 1892
Drawing rollers
Faller and counter faller
Terminology
Main article: Textile manufacturing terminology
Social and economic
Mules operating in a Cotton mill.
The spinning inventions were significant in enabling a great expansion to occur in the production of textiles, particularly cotton ones. Cotton and iron were leading sectors in the Industrial Revolution. Both industries underwent a great expansion at about the same time, which can be used to identify the start of the Industrial Revolution.
The 1790 mule was operated by brute force: the spinner drawing and pushing the frame while attending to each spindle. Home spinning was the occupation of women and girls, but the strength needed to operate a mule, caused it to be the activity of men. Hand loom weaving however, had been a mans occupation but in the mill it could and was done by girls and women. Spinners were the bare-foot aristocrats of the factory system.
Mule spinners were the leaders in unionism within the cotton industry, the pressure to develop the self-actor or self acting mule was partly to open the trade to women. It was in 1870. that the first national union was formed.
The Wool industry was divided into woolen and worsted. It lagged behind cotton in adopting new technology. Worsted tended to adopt Arkwright water frames which could be operated by young girls, and woolen adopted the mule.
See also
Cotton mill
Textile manufacturing
Timeline of clothing and textiles technology
Textile manufacture during the Industrial Revolution
References
^ Marsden 1884, p. 109
^ Nasmith 1895, p. 109
^ Saxonhouse, Gary; Wright. Technological Evolution in Cotton Spinning, 1878-1933.
^ Marsden 1884, p. 219
^ Marsden 1884, p. 219
^ Marsden 1884, p. 219
^ Marsden 1884, p. 222
^ Marsden 1884, p. 222
^ Marsden 1884, p. 223
^ Marsden 1884, p. 224
^ Marsden 1884, p. 226
^ Marsden 1884, pp. 226-230
^ Miller & Wild 2007, p. 166
^ Marsden 1884, pp. 240-242
^ a b Fowler, Alan (11-13 Nov. 2004). "British Textile Workers in the Lancashire Cotton and Yorkshire Wool Industries". National overview Great Britain, Textile conference IISH,.
Bibliography
Nasmith, Joseph (1895). Recent Cotton Mill Construction and Engineering (Elibron Classics ed.). London: John Heywood. ISBN 1-4021-4558-6.
Marsden, Richard (1884) (in English). Cotton Spinning: its development, principles an practice.. George Bell and Sons 1903. http://www.archive.org/details/cottonspinningit00mars. Retrieved 2009-04-26.
Marsden, ed (1909). Cotton Yearbook 1910. Manchester: Marsden and Co.. http://www.archive.org/stream/cottonyearbook1910manc. Retrieved 2009-04-26.
Miller, I; Wild (2007). A& G Murray and the Cotton Mills of Ancoats. Storey Institute Lancaster: Oxford Archaelogy North. *
External links
Description of working day in a Lancashire spinning mill- explaining the operation of a mule
Video clip of a Mule in action Data Size: 1,3MB
The only surviving mule made by its inventor is at Bolton Museum
Transcription of 1979 tape describing the operations of a Taylor and Lang Condenser Mule
v d e
Spinning
Materials
Noil Rolag Roving Sliver Staple Top Tow Woolen Worsted
Techniques
Carding Combing Long draw Short draw Twist per inch
Hand spinning tools
Distaff Niddy noddy Spindle Spinning wheel Spinners weasel
Industrial spinning
Cotton-spinning machinery Open end spinning Ring spinning Spinning frame Spinning jenny Spinning mule Throstle frame Water frame Wool combing machine
v d e
Cotton
Architects
Stott Sidney Stott (later Sir Philip) Edward Potts Potts, Pickup & Dixon F.W. Dixon & Son
Engine makers
Daniel Adamson Ashton Frost Ashworth & Parker Boulton & Watt Browett & Lindley Buckley & Taylor Carel Earnshaw & Holt Goodfellow Fairbairn W & J Galloway B Goodfellow Hicks Musgrave J & W McNaught Petrie of Rochdale George Saxon Scott & Hodgson Urmson & Thompson Yates of Blackburn Yates & Thom Whilans J & E Wood Woolstenhulmes & Rye
Machinery makers
Brooks & Doxey Butterworth & Dickinson Dobson & Barlow John Hetherington & Sons Joseph Hibbert Howard & Bullough Geo. Hattersley Asa Lees Mather & Platt Platt Brothers Taylor, Lang & Co Textile Machinery Makers Ltd Tweedales & Smalley
-
Oldham Limiteds Fine Spinners and Doublers Lancashire Cotton Corporation Courtaulds Bagley & Wright
Industrial processes
Textile manufacturing Cotton-spinning machinery Open end spinning Ring spinning Spinning frame Spinning jenny Spinning mule Water frame Roberts Loom Lancashire Loom
Lists of mills
LCC mills Bolton Bury Cheshire Derbyshire Lancashire Manchester Oldham Rochdale Salford Stockport Tameside Wigan
Categories: English inventions | History of the textile industry
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