The Story of the Cotton Plant Part 11
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This machine was so arranged that by means of two grooved wheels of different diameters, but both driven by the large wheel similar to the one in the Jersey wheel, and which was operated by the spinner, two speeds were obtained. The bobbin was attached to the smaller, and the spindle, to which was fastened the flyer or "Twister," was driven by the larger of two wheels.
In this form of spinning machine, then, there were the following operations performed:--
By the spindle and flyer both revolving at the same velocity, the thread was attenuated and twisted as it was carried to the bobbin. This latter was, as already named, driven by the smaller of the two wheels and had a motion all its own, though much quicker than that of the spindle. In this way a bobbin of yarn was built up, and the Saxony wheel no doubt gave many fruitful ideas to the inventors who appeared later on, and who, by reason of their research and experiment, evolved the fly frames of to-day; this was notably so in the case of Arkwright.
There had been very great opposition to the introduction of cotton goods into England by manufacturers and others interested in the wool and fustian trade, and matters even got so bad that the British Parliament was foolish enough to actually pa.s.s an Act in 1720, prohibiting "the use or wear in Great Britain, in any garment or apparel whatsoever, of any printed, painted, stained, or dyed _calico_, under the penalty of forfeiting to the informer the sum of 5."
Just as though this was not sufficiently severe, it was also enacted that persons using printed or dyed calico "in or about any bed, chair, cus.h.i.+on, window-curtain, or any other sort of household stuff or furniture," would be fined 20, and a like amount was to be paid by those who sold the stuff.
There can be no doubt whatever, that this Act was designed to strike a death-blow at the cotton industry, which at this time was beginning to make itself felt in the commerce of the country. A curious exception should be mentioned here. Calico, which was all blue, was exempted from the provisions of this Act, as were also muslins, fustians and neck-ties. However, in 1736 this iniquitous piece of legislation was somewhat relaxed, and Parliament was good enough to decree in the year just named that it would be lawful for anyone to wear "any sort of stuff made of linen yarn and cotton wool manufactured and printed or painted with any colour or colours within the kingdom of Great Britain, provided that the warp thereof be entirely linen yarn."
Now as half a loaf is better than none, the cotton manufacturers received a direct impulse by the partial removal of the obnoxious restriction, and very soon the supply was far ahead of the demand.
Manufacturers were crying out constantly for more weight and better stuff, but how by the mechanical means at the disposal of the spinners were they to get it? Lancas.h.i.+re historians say that it was no uncommon thing for weavers to travel miles in search of weft, and then many of them returned to their looms with only a quarter of the amount they required.
Another cause which acted in the direction of increasing the demand for yarns and weft was the invention of the _flying shuttle_ by John Kay about 1738. Previous to his time, the heavy shuttles containing the wefts were sent across the looms by two persons. Now, by his new shuttle he dispensed with the services of one of these artisans, and by means of his arrangement for quickly sending the shuttle along the lathe of the loom, much more cloth was produced. Poor Kay suffered much by the cruel persecution of his countrymen, who ignorantly supposed that in bringing his new shuttle to such perfection, they would be deprived _permanently_ of their occupations, with nothing but starvation looking them in the face. Of course, nothing could be wider of the truth than this, but Kay had to flee his country, and died in poverty and obscurity in a foreign land. Still the shuttle continued to be used, for the makers of cloth had learned that increased production meant more work, and possibly greater profit, and though Kay disappeared, his works remained behind.
The demand for weft grew more and more. It has been said that it is the occasion which makes the man, and not man the occasion. It was so in this case, for here was a cry for some mechanical means to be discovered for satisfying the ever-increasing demand for cotton weft. Hitherto single threads only had been dealt with on the spinning machines, but the same year witnessed the introduction of an invention which in a few years completely revolutionized the spinning industry, and which enabled one worker to spin hundreds of threads at once.
The year 1738, which witnessed the birth of Kay's invention, also saw that of Lewis Paul, an artisan of Birmingham. This was a new method of spinning by means of _Rollers_. It should be remembered that this was thirty years before Arkwright attempted to obtain letters patent for his system of spinning by rollers.
Most of the readers of this little book will have seen what is known in _domestic parlance_ as a clothes-wringer. Here the wooden or rubber rollers, by means of weights or screws, are made to squeeze out most of the moisture which remains after the garment has left the was.h.i.+ng-tub.
Now if two sets of such rollers could be put together, so that in section the four centres would coincide with the four angular points of a square, and the back pair could be made to have a greater surface velocity than the front pair, this arrangement would give something like the idea which Paul had in his mind at that time. Why make the back pair revolve at a greater rate? For this reason, that as the cotton was supplied to the front pair, and pa.s.sed on to the second, remembering that these are going at a greater rate, it follows that the cotton _would be drawn out_ in pa.s.sing from the first to the second pair. Had the rollers been both going at the same speeds, the cotton would pa.s.s out as it went in, unaffected. Now it was this idea which Paul practically set out in his machine. From some reason or other, Paul's right to this patent has been often called into question, and up to 1858 it was popularly supposed to have been the sole invention of John Wyatt of Birmingham. In the year named, Mr. Cole, in a paper read before the British a.s.sociation, proved that Paul was the real patentee, and established the validity of his claim without doubt.
The two distinguis.h.i.+ng features of Paul's Spinning Machine were: (1) by means of the rollers and flyers he performed the operations of drawing-out and twisting, which had hitherto been done by the fingers and thumbs of the spinners; and (2) he changed the position of the spindle itself from the horizontal to the vertical.
A glance at the Transactions of the Society for the Encouragement of Arts, Manufactures and Commerce, shows that this period (1760-1770) was most prolific of inventions specially relating to the various sections of the cotton industry. There were "improved spinning wheels," "a horizontal spinning wheel," and three other forms of "spinning machines"
submitted to the above society between 1761 and 1767, in the hope of obtaining money grants in the shape of premiums, which had been offered to the best inventions for improving spinning machinery in general.
The above list does not however contain any reference to one improvement by James Hargreaves of Blackburn, Lancas.h.i.+re, to which in this story special mention must be made.
It appears that in 1764 or 1765 this individual had completed a machine for spinning eleven threads _simultaneously_; and five years later he had developed the machine to so perfect a state that he took out a patent for it, from which time it became known to the industrial world as a _Spinning Jenny_. His right to the patent has over and over again been challenged, and it has been alleged that Thomas Highs of Leigh, also in Lancas.h.i.+re, was the real inventor. Baines, in his "History of the Cotton Manufacture," is inclined to the view that Hargreaves was the first to perfect the machine known as the "Jenny" (see Fig. 21).
From whatever point of view Hargreaves' machine is looked at, it must be acknowledged to be a decided step forward in the direction of spinning machinery improvement.
The jenny was so unlike Arkwright's frame or Paul's, and preceded that of the former by some years, that its claim to originality can not be questioned. How the inventor came to produce his machine can not be stated, but it is reported that on one occasion he saw a single thread spinning wheel which had been accidentally knocked over, lying with the wheel and spindle free and both revolving.
If the reader will think for a minute it will be apparent that the horizontal position of the spindle would be changed to a vertical one, and Hargreaves argued if one spindle could revolve in that way, why should not eight or any number of spindles be made to work at the same time. How far he successfully worked out that idea will be seen if reference be made to the ill.u.s.tration of the jenny which is shown in Fig. 21.
After what has been said under the head of Carding, Drawing, and Roving, it will easily be understood when it is said that, unlike Arkwright's Machine, Hargreaves' Jenny could only deal with the cotton when in the state of _roving_, and it was the roving which this machine attenuated and twisted or spun into yarn.
If the reader will imagine he or she is standing in front of the jenny, the following description will be made much clearer:--
Image: FIG. 21.--Hargreaves' spinning jenny (after Baines).
The rovings, which have previously been prepared, are each pa.s.sed from the bobbins seen on the lower creel, through a number of grooves on one of the bars which run across the frame, as seen in the ill.u.s.tration.
These rovings are next pa.s.sed on to the spindles standing at the back of the frame and secured to them. A second bar in front of the one over which the rovings pa.s.s, acts as a brake and prevents, when in its proper position, any more roving being delivered, thus securing all between the spindles and the said bar. The wheel which is seen on the right of the jenny communicates with a cylinder by means of a strap or rope, and this cylinder in turning gives circular motion to the spindles which are connected with the cylinder by endless bands. On the spindle is the wharf, specially formed to allow the band to run without slipping.
The operations for a complete spinning of one delivery is described by Baines as follows:--
"A certain portion of roving being extended from the spindles to the wooden clasp, the clasp was closed, and was then drawn along the horizontal frame to a considerable distance from the spindles, by which the threads were lengthened out, and reduced to the proper tenuity; this was done with the spinner's left hand, and his right hand at the same time turned a wheel which caused the spindles to revolve rapidly, and thus the roving was spun into yarn. By returning the clasp to its first situation, and letting down a presser wire, the yarn was wound on the spindle."
Hatred and jealousy were immediately born when Hargreaves' splendid improvement became known, and, like poor Kay before him, he had to leave his native soil and get to some more secluded spot. He ultimately arrived in Nottingham, set at once to accommodate himself to his new environment, and soon entered into partners.h.i.+p with a Mr. James, and in 1770 took out a patent for his Jenny. In conjunction with his new partner, a mill was built, said to be one of the first, if not the first, spinning mill so called in this country.
Though it is stated by Arkwright that Hargreaves died in comparative obscurity and poverty, others say that this is not so; though he was not wealthy the evidence is sufficiently good to believe that he died in moderate circ.u.mstances.
The register of St. Mary's Parish, Nottingham, contains the following entry:--"1778, April 22, James Hargraves."
CHAPTER VIII.
FURTHER DEVELOPMENTS--ARKWRIGHT AND CROMPTON.
Whatever may be said in favour of other spinning machinery inventors, it is quite certain that when we put the whole of them together, two stand out in greater prominence than any of the rest, viz., Arkwright and Crompton.
Probably the former did more than any other Englishman to establish what is known as the Modern Factory System. He was not what one might call a brilliant man or great inventor, but he had the happy knack of appreciating and seizing upon what he knew was a good thing, and set about instantly to get all out of it that he could, and there are those who strongly affirm that he often got much more than he was ent.i.tled to.
However that may be, it can not be denied that he possessed eminent business qualifications, and these, coupled with other of his qualities, helped to make him exceedingly successful.
He first saw the light of day on December 23rd, 1732, in Preston, Lancas.h.i.+re, twenty-one years before his great rival and contemporary, Samuel Crompton. His parents could not possibly afford to give him any schooling, he being the youngest of thirteen. Apprenticed to the trade of barber, he became in time a first-rate man in that business. In 1760, when twenty-eight years of age, he left Preston and settled down in Bolton in Lancas.h.i.+re, setting up the business of barber and peruke-maker. The youthful Samuel Crompton would no doubt pay him many visits when in Churchgate, and little did he dream that the head he so often would undoubtedly use his skill upon was the one which would evolve by and by a machine which would amaze the then commercial world; but it was so. Another part of Arkwright's business, that of travelling up and down the country buying and selling human hair for wig-making, would put him _au fait_ with almost every new invention and idea.
Richard's business card proves that he believed in advertising himself even as a barber.
Just about this time there was much excitement, especially in Lancas.h.i.+re, about the marvellous invention of Hargreaves, the particulars of which had now become known to the public. One of the first to appreciate the significance of this invention was Arkwright himself, so that it may reasonably be supposed that he would in good time know all there was to be known of the mechanism used by Hargreaves in his new method of spinning.
Later on, Arkwright became acquainted with a man named Highs of Leigh, another experimenter in spinning. The circle of his acquaintances.h.i.+p also included Kay, a clockmaker of Warrington, who had a.s.sisted Highs on several occasions in his investigations.
At this time Arkwright's all-absorbing hobby was mechanics, and first one experiment and then another was made in rapid succession. Needless to say, his business of barbering suffered in the meanwhile.
From the first he turned his attention to an improvement of spinning cotton by drawing rollers. His efforts were crowned with success, and he ultimately blossomed into a knight, and was elected High Sheriff of Derbys.h.i.+re. It is rather singular that he should be about the only one of the cotton-machinery inventors of this age who ama.s.sed a fortune; most of the others being but slightly removed from want in their last days.
There were many who claimed that they were the real and original inventors of this method of spinning by rollers, but there can be no doubt that to Arkwright alone belongs the credit for bringing these improvements to a higher state of perfection than they ever attained before.
At the present time, roller drawing is the great basis of the operations of modern spinning, wherever performed.
Not only is this the case in the final stages of production, but it is especially true of most of the preparatory processes, whether used for the production of coa.r.s.e, medium or fine yarns.
As is well known, the great principle of drawing rollers is, that the cotton is pa.s.sed through three or four pairs of rollers in quick succession, and attenuated by each pair in turn, each pair being made to revolve more quickly than the preceding pair. This identical process is repeated in machine after machine, until finally the bulk of cotton is reduced to a fine thread, of which, in some cases, it takes two or three hundred miles to weigh _one pound_. Even in what are termed medium numbers or counts of cotton yarn, there are from fifteen to twenty-five miles of thread in a pound avoirdupois, and more than _a thousand million pounds_ of such yarns are spun annually.
The year 1767 found Arkwright entirely absorbed in his ideas of roller drawing, and he got the clockmaker Kay to journey with him to Nottingham, possibly thinking that what had been meted out to other inventors in Lancas.h.i.+re should not be repeated in his case. He here collected about him a number of friends, moneyed and otherwise, who helped in his evolution of spinning machinery.
A man named John Smalley of Preston found him the wherewithal to carry on his experiments first at Preston and later on at Nottingham.
Certainly what he put up at Nottingham gave such promise of practical utility, that two experienced business men were led to join him in partners.h.i.+p, and the three of them, Need, Strutt, and Arkwright, very soon had mills built in Nottingham, Cromford and Matlock. The first-named mill was worked by horses, the two latter by water, hence the common name of _water frame_, given to the machines of Arkwright.
The gentlemen taken into partners.h.i.+p were able and qualified to give good sound advice and help to Arkwright, and about the middle of the year 1769 he took out a patent for his "_water frame_."
To use his own words, in his specification he "had, by great study and long application, invented a new piece of machinery, never before found out, practised or used, for the making of weft or yarn from cotton, flax, and wool; which would be of great utility to a great many manufacturers, as well as to His Majesty's subjects in general, by employing a great many poor people in working the said machinery, and by making the said weft or yarn much superior in quality to any heretofore manufactured or made."
The Story of the Cotton Plant Part 11
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The Story of the Cotton Plant Part 11 summary
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