[Image] Dannemora iron mine. After a drawing by James Nasmyth.
The first process of the workmen in the quarries below is devoted to
breaking into small fragments the great masses of ore scattered about
by the previous night's explosions. These are sent to the surface in
great tubs attached to wire ropes, which are drawn up by gins worked by
horses. Other miners are engaged in boring blast holes in the ore,
which displays itself in great wide veins in the granite sides of the
vast chasm. These blast holes are charged with gunpowder, each with a
match attached. At the end of the day the greater number of the miners
are drawn up in the cages or tubs, while a few are left below to light
the slow-burning matches attached to about a hundred charged bore
holes. The rest of the miners are drawn up, and then begins the
tremendous bombardment. I watched the progress of it from a stage
projecting over the wild-looking yawning gulph. It was grand to hear
the succession of explosions that filled the bottom of the mine far
beneath me. Then the volumes of smoke, through the surface of which
masses of rock were sometimes sent whirling up into the clear blue sky,
and fell back again into the pit below. Such an infernal cannonade I
have never witnessed. In some respects it reminded me of the crater of
Vesuvius, from which such dense clouds of steam and smoke and fire are
thrown up. In the course of the night, the suffocating smoke and
sulphureous gases has time to pass away, and next morning the workmen
were ready to begin their operations as before.
The ore extracted from this great mine is smelted in blast furnaces
with wood charcoal, and forged into bars. The charcoal is, of course,
entirely free from sulphur. When sent to Sheffield the iron is placed
in fire-brick troughs closely surrounded by powdered charcoal.
After a few days' exposure to red heat, the iron is converted into
splendid steel, which has given such a reputation to that great
manufacturing town. It is also the steel from which the firm of Stubbs
and Company, of Warrington (to which I have already referred),
produce their famous P.S. files.
After the explosions had ceased at the mine, I went with one of the
managers to see the great Bar forge. It was a picturesque sight to see
the forgemen at work with the tilt hammers under the glowing light of
the furnaces. I inspected the machinery and forge works throughout,
and had thus the opportunity of seeing the whole proceeding, from the
blasting and quarrying of the ore in the mine, the forging and rolling
of the worked iron into their proper lengths, down to the final stamp
or "mark" driven in by the blow of the tilt hammer at the end of each
bar. Having now thoroughly examined everything connected with this
celebrated iron mine, I prepared to set out for Stockholm in the same
way as I had come. To prepare the landlord for my setting out,
I again resorted to my pencil. I made a drawing of the little gig and
pony, with the sun rising, and the hour at which I wished to start.
He understood it in a moment, and next morning the trap was at the door
at the specified time.
Before I left Stockholm I made a careful and elaborate panoramic sketch
of the city, as a companion to the one I had made of Genoa from the
harbour a year before. I made this one from the summit of the King's
Park, which is the favourite pleasure-ground of the people.
I was ferried across in a little paddle-wheel boat, worked by
Dalecarlian women in their peculiar costumes. The King's Park,
or Djurgard, is doubly beautiful, not only from its panoramic view of
the city, the Malar Lake, and the arm of the Baltic, which comes up to
the Skeppsbron Quay, but also from the magnificent oak trees with which
it is studded. These noble trees, as foreground objects, are perfect
pictures. The masses of rock are grand, and the drives are beautifully
kept. No wonder that the Swedes are so proud of this beautiful park,
for it is the finest in Europe.
I left Stockholm for Gottenburg by steamer. This is one of the most
picturesque routes in Sweden. First, we passed through the Malar Lake
--one of the most beautiful pieces of water in the world. It contains
no less than fourteen hundred islands, mostly covered with wood.
Of course we did not see one twentieth part of the lake; we only
steamed along its eastern shore for about twenty miles on our way to
Sodertelye, where the Gotha Canal begins. We then reached the small
Maran Lake, and afterwards an arm of the Baltic. We passed numberless
islands and rocks and reached the Slatbacken Fiord, which we entered.
Beautiful scenery surrounds the entrance to the fiord. In the morning,
after rising up the locks between Mariehop and Wenneberga, and passing
through Lakes Roxen and Boren, we found ourselves at Motala, near the
entrance to the Wettern Lake.
Motala is a place of great importance in the manufacturing industry of
Sweden. When I visited it, the iron-foundry was in charge of
Mr. Caulson, a native of the country. I had known him some years
before in London, and had the highest opinion of his ability as a
constructive engineer. He was surrounded at Motala with everything in
the way of excellently arranged workshops, good machine tools,
as well as abundant employment for them. Indeed, this is the largest
iron-foundry in Sweden, where iron steamers, steam-engines, and rolling
mills are made. From its central position it has a great future before it.
The steamer crosses the lake to Carlsborg, at the entrance to the fiord
and canal that leads to Lakes Wiken and Wenern. The latter is an
immense lake--in fact, an inland sea. During a great part of the
time we were out of sight of land. At length we reached Wenersborg,
and passed down the Charles Canal. A considerable time is required to
enable the steamer to pass from lock to lock--nine locks in all--
down to the level of the Gotha River. During that time an opportunity
was afforded us for seeing the famous Trollhatten Falls--a very fine
piece of Nature's workmanship.
[Image] Part of Trollhatten Falls
Before leaving the subject of Sweden, I feel that I must say a word or
two about the Swedish people. I admired them exceedingly.
They are tall, fair, good-looking. They are among the most civil and
obliging people that I have ever met. I never encountered a rude word
or a rude look from them. In their homes they are simple and natural.
I liked the pleasing softness of their voices, so sweet and musical--
"a most excellent thing in woman." There was a natural gentleness in
their deportment. All classes, even the poorest, partook of it.
Their domestic habits are excellent. They are fond of their homes;
and, above all things, they are clean and tidy. They strew the floors
of their ground apartments with spruce pine twigs, which form a natural
carpet as well as give out a sweet balsamic perfume. These are swept
away every morning and replaced with fresh material.
With their many virtues, the Swedes are a most self-helping people.
They are hard-working and honest, true and straightforward.
In matters of commerce they are men of their word. They are
clear-headed, honest-minded, and keen in their desire for knowledge.
Their natural simple common sense enables them to clear away all
parasitical and traditional rubbish from their minds, and to stand
before us as men of the highest excellence. All happiness and
prosperity to dear old Sweden!
I set out from Gottenburg to Helsingborg, along the shores of the
Kattegat. From Helsingborg I crossed the Sound by a small steamer to
Elsinore, famous for its connection with Hamlet, Prince of Denmark.
The old dreary looking castle still stands there. From Elsinore I went
to Copenhagen, and occupied myself for a few days in visiting the
wonderful museums. There I saw, in the Northern Antiquities
Collection, the unwritten history of civilisation in the stone, bronze,
and iron tools which have brought the world to what it is now.
This museum is perfectly unrivalled. I saw there the first section of
kitchen-middens--that is, the refuse of oyster shells, fish-bones,
and other stuff thrown out by the ancient inhabitants of the country
after their meals; together with accumulations of rude stone
implements, kelts, arrow-heads, and such like.
Then there were the articles of the Bronze Age, with war trumpets;
the articles of the early Iron Age, which also contain some remarkable
golden war horns. These are followed by the middle Iron Age,
and then by the later Iron Age. This part of the collection is superb.
But it is impossible for me to describe the wonders of the museum.
I was greatly interested too by the collection of articles at the
Rosenburg Castle. This is the only museum at Copenhagen which is not
free; but the price charged is very small. It contains an extraordinary
collection of royal clothes (what would Sartor Resartus say?), armour,
furniture, drinking vessels, and all manner of personal antiquities
connected with the Kings of Denmark.
I was especially interested by the collection of royal drinking
vessels, from the earliest, made of wood, down to the latest,
grand gold and silver flagons. What most amused me in respect to these
boozing implements were the pegs that marked the depths down to which
the stalwart Dane was able to swig at a pull one enormous draught of
wine. In some cases the name and date of the achievement of the heavy
drinker was engraved on the flagon to record his feat.
"Take him a peg down" was the ordinary saying, and the words have
become a proverb amongst ourselves. For we unquestionably have derived
a great deal of our drinking capabilities from our ancestors the Danes.
The whole of the museums at Copenhagen are excellent.
Besides those I have mentioned, are the Ethnographic Museum--the best
of its kind; the Museum of Coins, the most complete I have seen;
the Thorwaldsen Museum; the Mineralogical Museum; the Zoological
Museum, and many more. The custodians are most kind and civil; and
when they see any visitor interested in the collection, they take a
special pleasure in going round with him and pointing out the beauty
and rarity of the articles, imparting at the same time most interesting
information. I wish those melancholy taciturn "staff-in-hand"
attendant custodians of our British Museums could or would follow their
example, and thus aid the chief object of these costly institutions.
Holding the memory of Tycho Brahe in the highest regard as one of the
great pioneers of astronomy, I was much interested by a contemporary
portrait of him in the Town Hall; but still more so by the remains of
his observatory at the top of the great Round Tower, where he carried
on his careful observations by instruments of his own design and
construction. These, with many additions, he afterwards transported to
the island of Hveen, where the remains of his castle and observatory
are still to be seen; While I was mounting the Round Tower I could not
but think of the footsteps of the great astronomer who has made it
classic ground.
I left Copenhagen for Hamburg by coach. After passing through the
island of Zealand, I was ferried across to the island of Fyen, and
after that I proceeded along the mainland of Sleswick and Holstein.
I was much pleased with what I saw of the people of these provinces.
Their farmhouses and cottages were wonderfully clean and neat.
The women were all engaged in scrubbing and polishing. I believe I saw
more brass in the shape of bright door-knockers during my journey than
I had seen in all England. Even the brass and iron hoops round the
milk pails, by constant scrubbing, looked like gold and silver.
Every window had its neat dimity curtains edged with snow-white
trimming. The very flower-pots were painted red, to fetch up their
brightness to the general standard. I never saw a more cheerful and
happy-looking people than those whom I observed between Copenhagen and
Hamburg. They seemed to me to be very like the people of England--
especially in the northern and eastern parts--in their oval faces,
their bright blue eyes, and their light and golden hair, as well as
their active minds and bodies, which enable them to do their work with
hearty cheerful energy.
I went from Hamburg to Amsterdam by steamer; and after doing a few
days' business I went to take a peep at the fine collections of
pictures there, as well as at the Hague. Then I proceeded to
Rotterdam, and took ship for England by the Batavian steamer.
I reached home safely after my prolonged tour. Everything was going on
well at the Bridgewater Foundry. The seeds which I had sown in the
northern countries of Europe were already springing up plentifully in
orders for machine tools; and the clang of the hammer and the whirl of
the lathes and planing machines were working cheerily on from morning
till night.
CHAPTER 17. More about Bridgewater Foundry--Woolwich Arsenal.
The rapid extension of railways and steam navigation, both at home and
abroad, occasioned a largely increased demand for machinery of all
kinds. Our order-book was always full; and every mechanical workshop
felt the impulse of expanding trade. There was an increased demand for
skilled mechanical labour--a demand that was far in excess of the
supply. Employers began to outbid each other, and wages rapidly rose.
At the same time the disposition to steady exertion on the part of the
workmen began to decline.
This state of affairs had its usual effect. It increased the demand
for self-acting tools, by which the employers might increase the
productiveness of their factories without having resort to the costly
and untrustworthy method of meeting the demand by increasing the number
of their workmen. Machine tools were found to be of much greater
advantage. They displaced hand-dexterity and muscular force.
They were unfailing in their action. They could not possibly go wrong
in planing and turning, because they were regulated by perfect
self-acting arrangements. They were always ready for work, and never
required a Holiday or a Saint Monday.
As the Bridgewater Foundry had been so fortunate as to earn for itself
a considerable reputation for mechanical contrivances, the workshops
were always busy. They were crowded with machine tools in full action,
and exhibited to all comers their effectiveness in the most
satisfactory manner, Every facility was afforded to those who desired
to see them at work; and every machine and machine tool that was turned
out became in the hands of its employers the progenitor of a numerous
family.
Indeed, on many occasions I had the gratification of seeing my
mechanical notions adopted by rival or competitive machine
constructors, often without acknowledgment; though, notwithstanding
this point of honour, there was room enough for all. Though the parent
features were easily recognisable, I esteemed such plagiarisms as a
sort of left-handed compliment to their author. I also regarded them
as a proof that I had hit the mark in so arranging my mechanical
combinations as to cause their general adoption, and many of them
remain unaltered to this day.
The machine tools when in action did not require a skilled workman to
guide or watch them. All that was necessary to superintend them was a
well-selected labourer. The self-acting machine tools already
possessed the requisite ability to plane, to turn, to polish, and to
execute the work when firmly placed in situ. The work merely required
to be shifted from time to time, and carefully fixed for another action
of the machine.
Besides selecting clever labourers, I made an extensive use of active
handy boys to superintend the smaller class of self-acting machine
tools. To do this required little exertion of muscular force,
but only observant attention. The machine tools did all the working
(for the thinking had been embodied in them beforehand), and they
turned out all manner of geometrical forms with the utmost correctness.
This sort of training educated the faculties of the lads, and trained
their ideas to the perception of exactness of form, at the same time
that it gave them an intimate acquaintance with the nature of the
materials employed in mechanical structures. The rapidity with which
they thus acquired the efficiency of thoroughly practical mechanics was
surprising.
As the lads grew in strength they were promoted to the higher classes
of work. We gave to the foreman of each department the right to
recommend to a special rise of wages any lad who showed an extra
intelligent earnestness and assiduity in superintending his machine.
This produced an active spirit of emulation, which not only advanced
their efficiency but relieved the foreman from a source of irritation
in the discharge of his duties. I have already referred to the subject
in a former portion of this narrative; but it cannot be too strongly
urged upon the attention of proprietors of mechanical works.
Besides making first-rate workmen, this method prevents the lads from
getting into habits of workshop dishonesty, i.e. "skulking," and other
annoyances.
My system of non-binding of apprentices was the "perfect cure,"
if I may so speak. All that existed between us was mutual satisfaction
with each other, and that alone proved from first to last in every
respect a perfect bond.
So completely were the workmen in attendance on self-acting machines
relieved from the necessity of labour, that many of the employers,
to keep the men from falling asleep, allowed them to attend to other
machines within their powers of superintendence. This kept them fully
awake. The workmen cheerfully acquiesced in this arrangement,
as a relief from tedium, and especially when a shilling extra was added
to their wages for each additional machine. All went well for a time,
for men as well as masters. But now came the difficulty.
The system was opposed to the rules of the Trades' Union.
Their committee held that setting one man to superintend more than one
machine was keeping out of employment some other man who ought to be
employed. And yet, at the time that the objection was made, such
persons were not to be had. The increased demand for skilled labour
had employed every spare workman.
Nevertheless the system, in the eyes of the Union, "must be put down."
The demand was made that every machine must have a Union man to
superintend it, and that he must be paid the full Union regulation
wages. All labourers and lads were to be discharged, and Union men
employed in their places. As the times were good, and the workshops
were full of orders, it was thought by the Union that the time had come
to put the matter to the test. The campaign was opened by the
organisation of a powerful body, entitled "The Amalgamated Society of
Mechanical Engineers." It included every class of workmen employed in
the trade--ironfounders, turners, fitters, erectors, pattern-makers,
and such like. All were invited to make common cause against the
employers.
In order to make a conspicuous demonstration of their power,
the Council of the Union first attacked the extensive firm of
Platt Brothers, Oldham. The Council sent them a mandate to discharge
all their labourers or other "illegal hands" from their works--all who
were employed in superintending their vast assortment of machinery--
and to fill their places with "legal mechanics" at the then regulation
wages. The plan of the Union was to attack the employers one by one--
to call out the hands of one particular workshop until the employers
were subdued and obeyed the commands of the Union; and then to attack
another employer in the same way. The sagacity of this policy very
much resembled that of the ostrich, which hides its head in hole and
thinks it is concealed. The employers knew the drift of the policy,
and took steps to circumvent it.
A mutual defence association was formed, and a decree was issued that,
unless the demand of the Council against Platt's factory was withdrawn
by a certain day, every employer would at once close his concern.
The Union, nevertheless, stuck to their guns--but only for a time.
A strike took place. The works of some of the most extensive employers
of labour were closed. Everything was paralysed for a time;
the men went about with their hands in their pockets, while the women
and children at home were wanting food. After a few weeks the funds of
the Amalgamated Society became so reduced that the men gradually
retired from the contest. Meanwhile, such concerns as contrived to
keep their workmen in full employment--of whom we were one made use
of the occasion to act on the healthy system of what I have termed
"Free trade in ability." We added, so far as we could, to the number of
intelligent labourers, advanced them to the places which the Unionist
workmen had left at the order of their Council, and thus kept our men
on full wages until the strike was over. This was the last contest I
had with Trades' Unions. One of the results was that I largely
increased the number of self-acting machines, and gave a still greater
amount of employment to my unbound apprentices. I placed myself in an
almost impregnable position, and showed that I could conduct my
business with full activity and increasing prosperity, and at the same
time maintain good-feeling between employed and employer.
Another important point was this,--that I always took care to make my
foremen comfortable, and consequently loyal. A great part of a man's
success in business consists in his knowledge of character.
It is not so much what he himself does, as what he knows his heads of
departments can do. He must know them intimately, take cognisance of
the leading points of their character, pick and choose from them,
and set them to the work which they can most satisfactorily
superintend. Edward Tootal, of Manchester, said to me long before,
"Never give your men cause to look over the hedge." He meant that I
should never give them any reason for looking for work elsewhere.
It was a wise saying, and I long remembered it. I always endeavoured
to make my men and foremen as satisfied as possible with their work,
as well as with their remuneration.
I never had any cause to regret that I had struck out an independent
course in managing the Bridgewater Foundry. The works were always
busy. A cheerful sort of contentment and activity pervaded the entire
establishment. Our order-book continued to be filled with the most
satisfactory class of entries. The railway trucks in the yard,
and the canal barges at the wharf, presented a busy scene,--
showing the influx of raw material and the output of finished work.
This happy state of affairs went on in its regular course without any
special incident worthy of being mentioned. The full and steady influx
of prosperity that had been the result of many years of interesting
toil and cheerful exertion, had caused the place to assume the aspect
of a smoothly working self-acting machine.
Being blessed with a sound constitution, I was enabled to perform all
my duties with hearty active good-will. And as I had occasional
journeys to make in connection with our affairs and interests,
these formed a very interesting variety in the ordinary course of my
daily work. The intimate and friendly intercourse which I was so
fortunate as to cultivate with the heads of the principal engineering
firms of my time, kept me well posted up in all that was new and
advanced in the way of improvements in mechanical processes. I had at
the same time many pleasant opportunities of making suggestions as to
further improvements, some of which took root and yielded results of no
small importance. These visits to my friends were always acceptable,
if I might judge from the hearty tone of welcome with which I was
generally received.
I do not know what may be the case in other classes of businesses or
professions, but as regards engineer mechanists and metal workers
generally, there is an earnest and frank intercommunication of ideas--
an interchange of thoughts and suggestions--which has always been a
source of the highest pleasure to me, and which I have usually found
thoroughly reciprocated. The subjects with which engineers have to
deal are of a wide range, and jealousy in intercommunication is almost
entirely shut out. Many of my friends were special "characters."
For the most part they had made their own way in the world,
like myself. I found among them a great deal of quaint humour.
Their talk was quite unconventional; and yet their remarks were well
worth being treasured up in the memory as things to be thought about
and pondered over. Sometimes they gave the key to the comprehension of
some of the grandest functions in Nature, and an insight into the
operation of those invariable laws which regulate the universe.
For all Nature is, as it were, a grand workshop, ruled over by an ever
present Almighty Master,--of whose perfect designs and works we are
as yet only permitted to obtain hasty and imperfect glimpses.
To return to my own humbler progress. From an early period of my
efforts as a mechanical engineer, I had been impressed with the great
advantages that would result from the employment of small high-pressure
steam-engines of a simple and compact construction. These, I thought,
might suit the limited means and accommodation of small factories and
workshops where motive power was required. The highly satisfactory
results which followed the employment of steam-engines of this class,
such as I supplied shortly after beginning business in Manchester,
led to a constantly increasing demand for them. They were used for
hoisting in and out the weighty bales of goods from the lofty
Manchester warehouses. They worked the "lifts," and also the pumps of
the powerful hydraulic presses used in packing the bales.
These small engines were found of service in a variety of ways.
When placed in the lower parts of the building the waste steam was
utilised in warming the various apartments of the house. The steam was
conveyed in iron pipes, and thus obviated the risk of fire which
attended the use of stoves and open fire-grates. I remember being much
pleased with seeing a neat arrangement of a "hot-closet" heated by the
waste steam conveyed from the bottom of the building. This was used
for holding the dinners and teas of the minor clerks and workpeople.
Another enclosed place, heated by waste steam, was used for drying wet
clothes and jackets during rainy weather. Much attention was paid by
the employers to their workpeople in these respects. The former
exhibited a great deal of kindly thoughtfulness. But men and master
were alike. It was a source of the greatest pleasure to me,
when looking round the warehouses and factories, to see the intelligent
steady energy that pervaded every department, from the highest to the
lowest.
I never lost sight of the importance of extending the use of my small
steam-engine system. It was the most convenient method of applying
steam power to individual machines. Formerly, the power to drive a
machine was derived from a very complicated arrangement of shafting and
gearing brought from a distant engine. But by my system I conveyed the
power to the machine by means of a steam pipe, which enabled the engine
to which it was attached to be driven either fast or slow, or to be
stopped or started, just as occasion required. It might be run while
all the other machines were at rest; or, in the event of a breakdown of
the main engine of the factory, the small engine might still be kept
going or even assist in the repairs of the large one.
An important feature in this mode of conveying power by means of piping
--in place of gearing and shifting belts and belt pulleys--was the ease
with which the steam could be conveyed into intricate parts of the
building. The pipes which I used were of wrought-iron, similar to
those used in conveying gas. They could be curved to suit any
peculiarity of the situation; and when the pipes were lapped with felt,
or enclosed in wooden troughs filled with sawdust, the loss of heat by
radiation was reduced to a minimum. The loss of power was certainly
much less than in the friction of a long and perhaps tortuous line of
shafting. With steam of 50 lbs. to the inch, a pipe of one-inch bore
will convey sufficient steam to give forth five horse-power at a
distance of two or three hundred feet from the boiler.*
[footnote...
In the case of rambling premises, such as iron shipbuilding yards,
the conveyance of steam by well-protected pipes put underground for the
purpose of driving engines to work punching and plate-shearing machines
(which have to be near at hand when the work is required), has very
great practical advantages.
...]
I adopted the same practice in working the refined and complex machines
used in printing coloured patterns on calico. A great variety of
colours has to be transferred by a combination of rollers--each carrying
its proper colour; these are printed on the calico with the utmost
exactness, and result in the complete pattern. My system of having a
separate engine to give motion to these colour-printing machines was
found to be of great service, and its value was recognised by its
speedy and almost universal adoption. Every connection with the main
shaft, with its gearing and belts and pulleys--by which colour-printing
had before been accomplished--was entirely done away with, because each
machine had its own special engine. The former practice had led to
much waste, and the printing was often confused and badly done.
The power was conveyed from a great central steam-engine; the printing
machines were ranged by the side of a long gallery, and by means of a
"clutch" each machine was started at once into action.
The result of this was a considerable shock to the machine,
and an interference with the relative adjustments of the six or
eight colour rollers, which were often jerked out of their exact
relative adjustment. Then the machines had to be stopped and the
rollers readjusted, and sometimes many yards of calico had been spoiled
before this could be done.
These difficulties were now entirely removed. When all was adjusted,
the attendant of the print-machine had only to open gradually the steam
admission valve of his engine, and allow it to work the machine gently
at its first off-go; and when all was seen to be acting in perfect
concert, to open the valve further and allow the machine to go at full
speed. The same practice was adopted in slowing off the machine,
so as to allow the attendant to scrutinise the pattern and the position
of the work, or in stopping the machine altogether. So satisfactory
were the results of the application of this mode of driving calico
printing machines, that it was adopted for the like processes as
applied to other textile fabrics; and it is now, I believe, universally
applied at home as well as abroad. I may also add that the waste
steam, as it issued from the engine after performing its mechanical
duty there, was utilised in a most effective manner by heating a series
of steam-tight cylinders, over which the printed cloth travelled as it
issued from the printing machine, when it was speedily and effectively
dried. In these various improvements in calico printing I was most
ably seconded by Mr. Joseph Lese, of Manchester, whose practical
acquaintance with all that related to that department of industry
rendered him of the greatest service. There was no "Invention,"
so to speak, in this almost obvious application of the steam-engine to
calico-printing. It required merely the faculty of observation, and
the application of means to ends. The main feature of the system,
it will be observed, was in enabling the superintendent of each machine
to have perfect control over it,--to set it in motion and to regulate
its speed without the slightest jerk or shock to its intricate
mechanism. In this sense the arrangement was of great commercial value.
I had another opportunity of introducing my small engine system into
the Government Arsenal at Woolwich. In 1847 the attention of the Board
of Ordnance was, directed to the inadequacy of the equipment of the
workshops there. The mechanical arrangements, the machine tools,
and other appliances, were found insufficient for the economical
production of the apparatus of modern warfare. The Board did me the
honour to call upon me to advise with them, and also with the heads of
departments at the arsenal. Sir Thomas Hastings, then head of the
Ordnance, requested me to accompany him at the first inspection.
I made a careful survey of all the workshops, and although the
machinery was very interesting as examples of the old and primitive
methods of producing war material, I found that it was better fitted
for a Museum of Technical Antiquity than for practical use in these
days of rapid mechanical progress. Everything was certainly far behind
the arrangements which I had observed in foreign arsenals.
The immediate result of my inspection of the workshops and the
processes conducted within them was, that I recommended the
introduction of machine tools specially adapted to economise labour,
as well as to perfect the rapid production of war material.
In this I was heartily supported by the heads of the various departments.
After several conferences with them, as well as with Sir Thomas Hastings,
it was arranged that a large extension of the workshop space should be
provided. I was so fortunate as to make a happy suggestion on this
head. It was, that by a very small comparative outlay nearly double
the workshop area might be provided--by covering in with light iron
roofs the long wide roadway spaces that divided the parallel ranges of
workshops from each other.
This plan was at once adopted. Messrs. Fox and Henderson,
the well-known railway roofing contractors, were entrusted with the
order; and in a very short time the arsenal was provided with a noble
set of light and airy workshops, giving ample accommodation for present
requirements, as well as surplus space for many years to come.
In order to supply steam power to each of these beautiful workshops,
and for working the various machines placed within them, I reverted to
my favourite system of small separate steam-engines. This was adopted,
and the costly ranges of shafting that would otherwise have been
necessary were entirely dispensed with.
A series of machine tools of the most improved modern construction,
specially adapted for the various classes of work carried on in the
arsenal, together with improved ranges of smiths' forge hearths,
blown by an air blast supplied by fans of the best construction, and a
suitable supply of small hand steam hammers, completed the arrangements;
and quite a new era in the forge work of the arsenal was begun.
I showed the managers and the workmen the docile powers of the steam
hammer, in producing in a few minutes, by the aid of dies, many forms
in wrought-iron that had heretofore occupied hours of the most skilful
smiths, and that, too, in much more perfect truth and exactitude.
Both masters and men were delighted with the result: and as such
precise and often complex forms of wrought-iron work were frequently
required by hundreds at a time for the equipment of naval gun carriages
and other purposes, it was seen that the steam hammer must henceforward
operate as a powerful auxiliary in the productions of the arsenal.
In the introduction of all these improvements I received the frank and
cordial encouragement of the chief officers of the Board of Ordnance
and Admiralty. My suggestions were zealously carried out by
Colonel J. N. Colquhoun, then head of the chief mechanical department
of the Ordnance works at Woolwich. He was one of the most clear-headed
and intelligent men I have ever met with. He had in a special degree
that happy power of inspiring his zeal and energy into all who worked
under his superintendence, whether foremen or workmen. A wonderfully
sympathetic effect is produced when the directing head of the
establishment is possessed of the valuable faculty of cheerful and
well-directed energy. It works like an electric thrill, and soon
pervades the whole department. I may also mention General Dundas,
director of the Royal Gun-Factory, and General Hardinge, head of the
Royal Laboratories.*
[footnote...
The term "Laboratory" may appear an odd word to use in connection with
machinery and mechanical operations. Yet its original signification
was quite appropriate, inasmuch as it related to the preparation of
explosive substances, such as shells, rockets, fusees, cartridges,
and percussion caps, where chemistry was as much concerned as mechanism
in producing the required results.
...]
This latter department included all processes connected with explosives.
It was superintended by Captain Boxer, an officer of the highest talent
and energy, who brought everything under his control to the highest
pitch of excellence. I must also add a most important person,
my old and much esteemed friend John Anderson, then general director of
the Machinery of the arsenal. He was an admirable mechanic, a man of
clear practical good sense and judgment, and he eventually raised
himself to the highest position in the public service.
The satisfactory performance of the machinery which had been supplied
to the workshops of the royal dock yards and arsenals, led to further
demands for similar machinery for foreign Governments. Foreign visitor
were allowed freely to inspect all that had been done whatever may be
said of the wisdom of this proceeding it is certainly true that no
mechanical improvement can long be kept secret nowadays. Everything is
published and illustrated in our engineering journals. And if the
foreigners had not been allowed to obtain their new machines from
England, they were provided with facilities enough for constructing
them for themselves. At all events, one result of the improved working
of the new machines at the Royal Arsenal at Woolwich, was the receipt
of large orders for our firm for the supply of foreign Governments.
For instance, that of Spain employed us liberally, principally tor the
equipment of the royal dockyards of Ferrol and Cartagena.
These orders came to us through Messrs. Zuluatta Brothers,
who conducted their proceedings with us in a prompt and business-like
way for many years. Through the same firm we obtained orders to
furnish machinery for the Spanish royal dockyard at Havana.
In 1849 we received an extensive order from the Russian Government.
This was transmitted to us through the Imperial Consulate in London.
The machinery was required for the equipment of a very extensive rope
factory at the naval arsenal of Nicolaiev, on the Black Sea This order
included all the machinery requisite for the factory, from the heckling
of the hemp to the twisting of the largest ropes and cables required in
the Russian naval service. The design and organisation of this machinery
in its minutest detail caused me to made a special study of the art of
rope-making. It was a comparatively new subject to me; but I found it
full of interest. It was difficulty, and therefore to be overcome.
And in this lies a great deal of the pleasure of contriving and
inventing.
During the progress of the work I had the advantage of the frequent
presence of an able Russian officer, Captain Putchkraskey,
whose intelligent supervision was a source of much satisfaction.
We had also occasional visits from Admiral Kornileff, a man of the
highest order of intelligence. He was not only able to appreciate our
exertions to execute the order in first-rate style, but to enter into
all the special details and contrivances of the work while in progress.
I had often occasion to meet Russian officers while at the Bridgewater
Foundry. They were usually men of much ability, selected by the
Russian Government to act as their agents abroad, in order to keep them
well posted up in all that had a bearing upon their own interests.
They certainly reflected the highest credit on their Government,
as proving their careful selection of the best men to advance the
interests of Russia.
During the visit of the Grand Duke Constantine to England about that
time, he resided for some days with the Earl of Ellesmere at
Worsley Hall, about a mile and a half from Bridgewater Foundry.
We were favoured with several visits from the Grand Duke, accompanied
by Baron Brunnow, Admiral Hoyden, and several other Russian officials.
They came by Lord Ellesmere's beautiful barge, which drew up alongside
our wharf, where the party landed and entered the works. The Grand Duke
carefully inspected the whole place, and expressed himself as greatly
pleased with the complete mastery which man had obtained over obdurate
materials, through the unfailing agency of mechanical substitutes for
manual dexterity and muscular force.
I was invited to meet this distinguished party at Worsley Hall on more
than one occasion, and was much pleased with the frank and intelligent
conversation of the Grand Duke, in his reference to what he had seen in
his visits to our works. It was always a source of high pleasure to me
to receive visits from Lord Ellesmere, as he was generally accompanied
by men of distinction who were well able to appreciate the importance
of what had been displayed before them. The visits, for instance,
of Rajah Brooke, the Earl of Elgin, the Duke of Argyll, Chevalier Bunsen,
and Count Flahault, stand out bright in my memory.
But to return to my rope-making machinery. It was finished to the
satisfaction of the Russian officers. It was sent off by ship to the
Black Sea in July 1851, and fitted up at Nicolaiev shortly after.
I received a kind and pressing invitation from Admiral Kornileff to
accompany him on the first trip of a magnificent steamer which had been
constructed in England under his supervision. His object was, not only
that I might have a pleasant voyage in his company, but that I might
see my machinery in full action at Nicolaiev, and also that I might
make a personal survey of the arsenal workshops at Sebastopol.
It would, no doubt, have been a delightful trip, but it was not to be.
The unfortunate disruption occurred between our Government and that of
Russia, which culminated in the disastrous Crimean War.
One of the first victims was Admiral Kornileff. He was killed by one
of our first shots while engaged in placing some guns for the defence
of the entrance to the harbour of Sebastopol.
CHAPTER 18. Astronomical pursuits.
Let me turn for a time from the Foundry, the whirr of the self-acting
tools, and the sound of the steam hammers, to my quieter pursuits at home.
There I had much tranquil enjoyment in the company of my dear wife.
I had many hobbies. Drawing was as familiar to me as language.
Indeed, it was often my method of speaking. It has always been the way
in which I have illustrated my thoughts. In the course of my journeys
at home and abroad I made many drawings of places and objects, which
were always full of interest, to me at least; and they never ceased to
bring up a store of happy remembrances.
Now and then I drew upon my fancy, and with pen and ink I conjured up
"The Castle of Udolpho," " A Bit of Old England," "The Fairies are Out,"
and "Everybody for Ever." The last is crowded with thousands of figures
and heads, so that it is almost impossible to condense the drawing into
a small compass. To these I added "The Alchemist," "Old Mortality,"
"Robinson Crusoe," and a bit of English scenery, which I called
"Gathering Sticks." I need not say with how much pleasure I executed
these drawings in my evening hours. They were not "published," but I
drew them with lithographic ink, and had them printed by Mr. Maclure.
I afterwards made presents of the series to some of my most intimate
friends.
[Image] The Antiquarian. By James Nasmyth (Facsimile)
In remembrance of the great pleasure which I had derived from the
perusal of Washington Irving's fascinating works, I sent him a copy of
my sketches. His answer was charming and characteristic.
His letter was dated " Sunnyside," Massachusetts, where he lived.
He said (17th January 1859):
DEAR SIR--Accept my most sincere and hearty thanks for the exquisite
fancy sketches which you have had the kindness to send me, and for the
expressions of esteem and regard in the letter which accompanied them.
It is indeed a heartfelt gratification to me to think that I have been
able by any exercise of my pen to awaken such warm and delicate
sympathies, and to call forth such testimonials of pleasure and
approbation from a person of your cultivated taste and intellectual
elevation. With high respect and regard, I remain, nay dear sir,
your truly obliged friend, Washington Irving."
[Image] The Fairies. By James Nasmyth. (Facsimile)
Viscount Duncan, afterwards Earl Camperdown, also acknowledged receipt
of the drawings in a characteristic letter. He said: --"We are quite
delighted with them, especially with 'The Fairies,' which a lady to
whom I showed them very nearly stole, as she declared that it quite
realised her dreams of fairyland. I am only surprised that amidst your
numerous avocations you have found time to execute such detailed works
of art; and I shall have much pleasure in being reminded as I look at
the drawings that the same hand and head that executed them invented
the steam hammer, and many other gigantic pieces of machinery which
will tend to immortalise the Anglo-saxon race."
But my most favourite pursuit, after my daily exertions at the Foundry,
was Astronomy. There were frequently clear nights when the glorious
objects in the Heavens were seen in most attractive beauty and brilliancy.
I cannot find words to express the thoughts which the impressive
grandeur of the Stars, seen in the silence of the night, suggested to
me; especially when I directed my Telescope, even at random,
on any portion of the clear sky, and considered that each Star of the
multitude it revealed to me, was a SUN! the centre of a system!
Myriads of such stars, invisible to the unassisted eye, were rendered
perfectly distinct by the aid of the telescope. The magnificence of
the sight was vastly increased when the telescope was directed to any
portion of the Milky Way. It revealed such countless multitudes of
stars that I had only to sit before the eyepiece, and behold the
endless procession of these glorious objects pass before me.
The motion of the earth assisted in changing this scene of
inexpressible magnificence, which reached its climax when some object
such as the "Cluster in Hercules" came into sight. The component stars
are so crowded together there as to give the cluster the appearance of
a gray spot; but when examined with a telescope of large aperture,
it becomes resolved into such myriads of stars as to defy all attempts
to count them. Nothing can convey to the mind, in so awful and
impressive a manner, the magnificent and infinite extent of Creation,
and the inconceivable power of its Creator!
I had already a slight acquaintance with Astronomy. My father had
implanted in me the first germs. He was a great admirer of that
sublimest of sciences. I had obtained a sufficient amount of technical
knowledge to construct in 1827 a small but very effective reflecting
telescope of six inches diameter. Three years later I initiated
Mr. Maudslay into the art and mystery of making a reflecting telescope.
I then made a speculum of ten inches diameter, and but for the unhappy
circumstance of his death in 1831, it would have been mounted in his
proposed observatory at Norwood. After I had settled down at Fireside,
Patricroft, I desired to possess a telescope of considerable power in
order to enjoy the tranquil pleasure of surveying the heavens in their
impressive grandeur at night.
As I had all the means and appliances for casting specula at the
factory, I soon had the felicity of embodying all my former
self-acquired skill in this fine art by producing a very perfect
casting of a ten-inch diameter speculum. The alloy consisted of
fifteen parts of pure tin and thirty-two parts of pure copper,
with one part of arsenic. It was cast with perfect soundness, and was
ground and polished by a machine which I contrived for the purpose.
The speculum was so brilliant that when my friend William Lassell saw it,
he said "it made his mouth water." It was about this time (1840) that I
had the great happiness of becoming acquainted with Mr. Lassell,*
[footnote...
Mr. Lassell was a man of superb powers. Like many others who have done
so much for astronomy, he started as an amateur. He was first
apprenticed to a merchant at Liverpool. He then began business as a
brewer. Eventually he devoted himself to astronomy and astronomical
mechanics. When in his twenty-first year he began constructing
reflecting telescopes for himself. He proceeded to make a Newtonian of
nine inches aperture, which he erected in an observatory at his
residence near Liverpool, happily named "Starfield."
With this instrument he worked diligently, and detected the sixth star
in the trapezium of Orion. In 1844 he conceived the bold idea of
constructing a reflector of two feet aperture, and twenty feet focal
length, to be mounted equatorially. Sir John Herschel, in mentioning
Mr. Lassell's work, did me the honour of saying "that in Mr Nasmyth he
was fortunate to find a mechanist capable of executing in the highest
perfection all his conceptions, and prepared by his own love of
astronomy and practical acquaintance with astronomical observations,
and with the construction of specula, to give them their full effect."
With this fine instrument Mr. Lassell discovered the satellite of
Neptune. He also discovered the eighth satellite of Saturn, of extreme
minuteness, as well as two additional satellites of Uranus.
But perhaps his best work was done at Malta with a much larger
telescope, four feet in aperture, and thirty-seven feet focus, erected
there in 1861. He remained at Malta for three years, and published a
catalogue of 600 new nebulae, which will be found in the Memoirs of the
Royal Astronomical Society. One of his curious sayings was,
"I have had a great deal to do with opticians,
some of them--like Cooke of York--are really opticians;
but the greater number of them are merely shopticians!"
...]
and profiting by his devotion to astronomical pursuits and his profound
knowledge of the subject. He had acquired much technical skill in the
construction of reflecting telescopes, and the companionship between us
was thus rendered very agreeable. There was an intimate exchange of
opinions on the subject, and my friendship with him continued during
forty successive years. I was perhaps a little ahead of him in certain
respects. I had more practical knowledge of casting, for I had begun
when a boy in my bedroom at Edinburgh. In course of time I contrived
many practical "dodges" (if I may use such a word), and could nimbly
vault over difficulties of a special kind which had hitherto formed a
barrier in the way of amateur speculum makers when fighting their way
to a home-made telescope. I may mention that I know of no mechanical
pursuit in connection with science, that offers such an opportunity for
practising the technical arts, as that of constructing from first to
last a complete Newtonian or Gregorian Reflecting Telescope.
Such an enterprise brings before the amateur a succession of the most
interesting and instructive mechanical arts, and obliges the
experimenter to exercise the faculty of delicate manipulation.
If I were asked what course of practice was the best to instil a true
taste for refined mechanical work, I should say, set to and make for
yourself from first to last a reflecting telescope with a metallic
speculum. Buy nothing but the raw material, and work your way to the
possession of a telescope by means of your own individual labour and
skill. If you do your work with the care, intelligence, and patience
that is necessary, you will find a glorious reward in the enhanced
enjoyment of a night with the heavens--all the result of your own
ingenuity and handiwork. It will prove a source of abundant pleasure
and of infinite enjoyment for the rest of your life.
